Part Details for LF353N by Rochester Electronics LLC
Results Overview of LF353N by Rochester Electronics LLC
- Distributor Offerings: (0 listings)
- Number of FFF Equivalents: (0 replacements)
- CAD Models: (Request Part)
- Number of Functional Equivalents: (0 options)
- Part Data Attributes: (Available)
- Reference Designs: (Not Available)
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LF353N Information
LF353N by Rochester Electronics LLC 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.
Part Details for LF353N
LF353N CAD Models
LF353N Part Data Attributes
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LF353N
Rochester Electronics LLC
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Datasheet
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LF353N
Rochester Electronics LLC
Operational Amplifier,
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| Pbfree Code | No | |
| Part Life Cycle Code | Contact Manufacturer | |
| Ihs Manufacturer | ROCHESTER ELECTRONICS LLC | |
| Part Package Code | DIP | |
| Pin Count | 8 | |
| Reach Compliance Code | unknown | |
| ECCN Code | EAR99 | |
| HTS Code | 8542.33.00.01 |
LF353N Frequently Asked Questions (FAQ)
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The recommended operating temperature range for the LF353N is -25°C to +85°C, although it can operate from -40°C to +125°C with reduced performance.
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Yes, the LF353N is suitable for high-frequency applications up to 10 MHz, but it's essential to consider the op-amp's gain-bandwidth product, slew rate, and noise performance to ensure stability and accuracy.
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To ensure stability, use a compensation capacitor (e.g., 10-100 pF) between the output and the inverting input, and consider adding a resistor (e.g., 1 kΩ) in series with the capacitor to prevent oscillations.
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The maximum power dissipation for the LF353N is 670 mW, which is calculated based on the maximum junction temperature (150°C) and the thermal resistance (θJA) of the package.
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Yes, the LF353N can be used in a single-supply configuration, but it's essential to ensure the input common-mode voltage range is within the specified limits (typically VCC-2V to VCC+2V) to maintain proper operation.