TLE2021CP
ActivePRECISION LOW-POWER SINGLE SUPPLY OPERATIONAL AMPLIFIER
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TLE2021CP
ActivePRECISION LOW-POWER SINGLE SUPPLY OPERATIONAL AMPLIFIER
Technical Specifications
Parameters and characteristics for this part
| Specification | TLE2021CP |
|---|---|
| Amplifier Type | General Purpose |
| Current - Input Bias | 25 nA |
| Current - Output / Channel | 20 mA |
| Current - Supply | 240 µA |
| Gain Bandwidth Product | 2 MHz |
| Mounting Type | Through Hole |
| Number of Circuits | 1 |
| Operating Temperature [Max] | 70 °C |
| Operating Temperature [Min] | 0 °C |
| Package / Case | 0.3 in |
| Package / Case | 8-DIP |
| Package / Case | 7.62 mm |
| Supplier Device Package | 8-PDIP |
| Voltage - Input Offset | 150 µV |
| Voltage - Supply Span (Max) [Max] | 40 V |
| Voltage - Supply Span (Min) [Min] | 4 V |
TLE2021A-EP Series
Enhanced Product Excalibur High-Speed Low-Power Precision Operational Amplifiers
| Part | Supplier Device Package | Package / Case | Package / Case [y] | Package / Case [x] | Operating Temperature [Max] | Operating Temperature [Min] | Current - Input Bias | Amplifier Type | Voltage - Supply Span (Min) [Min] | Number of Circuits | Voltage - Supply Span (Max) [Max] | Mounting Type | Current - Supply | Voltage - Input Offset | Gain Bandwidth Product | Current - Output / Channel | Package / Case | Package / Case | Grade | Qualification |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
 Texas Instruments | 8-SOIC | 8-SOIC | 3.9 mm | 0.154 in | 125 °C | -40 °C | 25 nA | General Purpose | 4 V | 1 | 40 V | Surface Mount | 200 µA | 80 µV | 1.7 MHz | 20 mA | ||||
 Texas Instruments | 8-PDIP | 8-DIP | 70 °C | 0 °C | 25 nA | General Purpose | 4 V | 1 | 40 V | Through Hole | 240 µA | 150 µV | 2 MHz | 20 mA | 0.3 in | 7.62 mm | ||||
Texas Instruments | 8-PDIP | 8-DIP | 70 °C | 0 °C | 25 nA | General Purpose | 4 V | 1 | 40 V | Through Hole | 240 µA | 80 µV | 1.7 MHz | 20 mA | 0.3 in | 7.62 mm | ||||
Texas Instruments | 8-SOIC | 8-SOIC | 3.9 mm | 0.154 in | 125 °C | -40 °C | 25 nA | General Purpose | 4 V | 1 | 40 V | Surface Mount | 200 µA | 120 µV | 2 MHz | 20 mA | ||||
Texas Instruments | 8-SOIC | 8-SOIC | 3.9 mm | 0.154 in | 125 °C | -40 °C | 25 nA | General Purpose | 4 V | 1 | 40 V | Surface Mount | 200 µA | 80 µV | 1.7 MHz | 20 mA | Automotive | AEC-Q100 | ||
 Texas Instruments | 8-SOIC | 8-SOIC | 3.9 mm | 0.154 in | 85 °C | -40 °C | 25 nA | General Purpose | 4 V | 1 | 40 V | Surface Mount | 240 µA | 120 µV | 2 MHz | 20 mA | ||||
Texas Instruments | 8-SOIC | 8-SOIC | 3.9 mm | 0.154 in | 125 °C | -40 °C | 25 nA | General Purpose | 4 V | 1 | 40 V | Surface Mount | 200 µA | 80 µV | 1.7 MHz | 20 mA | Automotive | AEC-Q100 | ||
Texas Instruments | 8-SOIC | 8-SOIC | 3.9 mm | 0.154 in | 70 °C | 0 °C | 25 nA | General Purpose | 4 V | 1 | 40 V | Surface Mount | 240 µA | 80 µV | 1.7 MHz | 20 mA | ||||
Texas Instruments | 8-PDIP | 8-DIP | 70 °C | 0 °C | 25 nA | General Purpose | 4 V | 1 | 40 V | Through Hole | 240 µA | 150 µV | 2 MHz | 20 mA | 0.3 in | 7.62 mm | ||||
Texas Instruments | 8-SOIC | 8-SOIC | 3.9 mm | 0.154 in | 85 °C | -40 °C | 25 nA | General Purpose | 4 V | 1 | 40 V | Surface Mount | 240 µA | 80 µV | 1.7 MHz | 20 mA |
Pricing
Prices provided here are for design reference only. For realtime values and availability, please visit the distributors directly
| Distributor | Package | Quantity | $ | |
|---|---|---|---|---|
| Digikey | Tube | 1 | $ 2.09 | |
| 10 | $ 1.88 | |||
| 50 | $ 1.77 | |||
| 100 | $ 1.51 | |||
| 250 | $ 1.42 | |||
| 500 | $ 1.24 | |||
| Texas Instruments | TUBE | 1 | $ 1.80 | |
| 100 | $ 1.49 | |||
| 250 | $ 1.07 | |||
| 1000 | $ 0.80 | |||
Description
General part information
TLE2021A-EP Series
The TLE202x, TLE202xA, and TLE202xB devices are precision, high-speed, low-power operational amplifiers using a new Texas Instruments Excalibur process. These devices combine the best features of the OP21 with highly improved slew rate and unity-gain bandwidth.
The complementary bipolar Excalibur process utilizes isolated vertical pnp transistors that yield dramatic improvement in unity-gain bandwidth and slew rate over similar devices.
The addition of a bias circuit in conjunction with this process results in extremely stable parameters with both time and temperature. This means that a precision device remains a precision device even with changes in temperature and over years of use.