Part Details for OPA992SIDBVR by Texas Instruments
Results Overview of OPA992SIDBVR by Texas Instruments
- Distributor Offerings: (4 listings)
- Number of FFF Equivalents: (0 replacements)
- Tariff Estimator: (Available) NEW
- Number of Functional Equivalents: (4 options)
- CAD Models: (Available)
- Part Data Attributes: (Available)
- Reference Designs: (Not Available)
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OPA992SIDBVR Information
OPA992SIDBVR by Texas Instruments is an Operational Amplifier.
Operational Amplifiers are under the broader part category of Amplifier Circuits.
Amplifier circuits use external power to increase the amplitude of an input signal. They can be used to perform linear amplifications or logarithmic functions. Read more about Amplifier Circuits on our Amplifier Circuits part category page.
Price & Stock for OPA992SIDBVR
| Part # | Distributor | Description | Stock | Price | Buy | |
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DISTI #
296-OPA992SIDBVRCT-ND
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DigiKey | IC OPAMP Min Qty: 1 Lead time: 12 Weeks Container: Digi-Reel®, Cut Tape (CT), Tape & Reel (TR) |
3619 In Stock |
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$1.0885 / $2.2000 | Buy Now |
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DISTI #
595-OPA992SIDBVR
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Mouser Electronics | Operational Amplifiers - Op Amps Single 40-V 10.6-M H z rail-to-rail inp RoHS: Compliant | 20997 |
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$1.0700 / $2.1400 | Buy Now |
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DISTI #
OPA992SIDBVR
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TME | IC: operational amplifier, 10.6MHz, Ch: 1, ±1.35÷20VDC,±2.7÷40VDC Min Qty: 1 | 0 |
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$1.0600 / $2.0900 | RFQ |
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LCSC | Standard (General Purpose) Amplifier 1 Circuit Rail-to-Rail Input Rail-to-Rail Output SOT-23-6 | 332 |
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$1.4999 / $2.0853 | Buy Now |
US Tariff Estimator: OPA992SIDBVR by Texas Instruments
Calculations from this tool are estimations only for imports into the United States. Please refer to the distributor or manufacturer and reference official US government sources and authorities to verify any final purchase costs.
Part Details for OPA992SIDBVR
OPA992SIDBVR CAD Models
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OPA992SIDBVR Part Data Attributes
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OPA992SIDBVR
Texas Instruments
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Datasheet
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OPA992SIDBVR
Texas Instruments
Operational Amplifier, 1 Func, 1000uV Offset-Max, CMOS, PDSO6
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| Pbfree Code | Yes | |
| Rohs Code | Yes | |
| Part Life Cycle Code | Active | |
| ECCN Code | EAR99 | |
| HTS Code | 8542.33.00.01 | |
| Amplifier Type | Operational Amplifier | |
| Architecture | Voltage-Feedback | |
| Common-mode Reject Ratio-Min | 75 Db | |
| Common-mode Reject Ratio-Nom | 115 Db | |
| Frequency Compensation | Yes | |
| Input Offset Voltage-Max | 1000 µV | |
| JESD-30 Code | R-PDSO-G6 | |
| JESD-609 Code | e4 | |
| Length | 2.9 Mm | |
| Low-Bias | Yes | |
| Low-Offset | No | |
| Micropower | No | |
| Moisture Sensitivity Level | 1 | |
| Number of Functions | 1 | |
| Number of Terminals | 6 | |
| Operating Temperature-Max | 125 °C | |
| Operating Temperature-Min | -40 °C | |
| Package Body Material | Plastic/Epoxy | |
| Package Code | LSSOP | |
| Package Equivalence Code | TSOP6,.11,37 | |
| Package Shape | Rectangular | |
| Package Style | Small Outline, Low Profile, Shrink Pitch | |
| Packing Method | Tr, 7 Inch | |
| Peak Reflow Temperature (Cel) | 260 | |
| Power | No | |
| Programmable Power | No | |
| Seated Height-Max | 1.45 Mm | |
| Slew Rate-Nom | 32 V/Us | |
| Supply Current-Max | 2.98 Ma | |
| Supply Voltage Limit-Max | 42 V | |
| Supply Voltage-Nom (Vsup) | 5 V | |
| Surface Mount | Yes | |
| Technology | Cmos | |
| Terminal Finish | Nickel/Palladium/Gold (Ni/Pd/Au) | |
| Terminal Form | Gull Wing | |
| Terminal Pitch | 0.95 Mm | |
| Terminal Position | Dual | |
| Time@Peak Reflow Temperature-Max (s) | 30 | |
| Unity Gain BW-Nom | 10600 | |
| Voltage Gain-Min | 158489.3192 | |
| Wideband | No | |
| Width | 1.6 Mm |
Alternate Parts for OPA992SIDBVR
This table gives cross-reference parts and alternative options found for OPA992SIDBVR. The Form Fit Function (FFF) tab will give you the options that are more likely to serve as direct pin-to-pin alternates or drop-in parts. The Functional Equivalents tab will give you options that are likely to match the same function of OPA992SIDBVR, but it may not fit your design. Always verify details of parts you are evaluating, as these parts are offered as suggestions for what you are looking for and are not guaranteed.
| Part Number | Manufacturer | Composite Price | Description | Compare |
|---|---|---|---|---|
| OPA992IDCKR | Texas Instruments | $1.1130 | Operational Amplifier, 1 Func, 1000uV Offset-Max, CMOS, PDSO5 | OPA992SIDBVR vs OPA992IDCKR |
| POPA992SIDBVR | Texas Instruments | Check for Price | Operational Amplifier, 1 Func, 1000uV Offset-Max, BICMOS, PDSO6 | OPA992SIDBVR vs POPA992SIDBVR |
| POPA992IDBVR | Texas Instruments | Check for Price | Operational Amplifier, 1 Func, 1000uV Offset-Max, BICMOS, PDSO5 | OPA992SIDBVR vs POPA992IDBVR |
| POPA992IDCKR | Texas Instruments | Check for Price | Operational Amplifier, 1 Func, 1200uV Offset-Max, BICMOS, PDSO5 | OPA992SIDBVR vs POPA992IDCKR |
OPA992SIDBVR Frequently Asked Questions (FAQ)
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Texas Instruments recommends a layout with a symmetrical, star-grounded configuration, with the op-amp inputs and outputs routed away from each other and from the power supply lines. A solid ground plane and decoupling capacitors are also essential for minimizing noise and oscillations.
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The gain resistors (Rf and Rg) should be chosen based on the desired gain, bandwidth, and noise requirements. A good starting point is to use the gain resistor calculator tool provided by Texas Instruments or to consult the application notes and design guides for the OPA992.
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The maximum power dissipation of the OPA992 is dependent on the package type and ambient temperature. For the OPA992SIDBVR, the maximum power dissipation is approximately 1.4W at 25°C. However, it's essential to consult the datasheet and perform thermal calculations to ensure the device operates within safe limits.
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Yes, the OPA992 can be used as a unity-gain buffer, but it's essential to ensure that the input impedance is matched to the source impedance to minimize signal loss and distortion. Additionally, the output impedance should be considered when driving a load.
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To minimize EMI and RFI, use a shielded enclosure, keep the op-amp inputs and outputs away from each other and from the power supply lines, and use decoupling capacitors and ferrite beads to filter out high-frequency noise. Additionally, consider using a common-mode choke or a shielded cable for input and output connections.