Overview
The LM10CN/NOPB, produced by Texas Instruments, is a versatile operational amplifier and voltage reference integrated circuit. This device is designed for a wide range of applications, particularly in portable equipment and general-purpose use. It is notable for its ability to operate from a single power cell and its high output-drive capability, along with thermal overload protection. The LM10CN/NOPB can function in various modes, including as a remote comparator, signal conditioner, or transmitter for analog signals, making it highly adaptable for different system requirements.
Key Specifications
| Parameter | Minimum | Typical | Maximum | Unit |
|---|---|---|---|---|
| Input Offset Voltage | 0.3 | 2 | 3 | mV |
| Input Offset Current | 0.25 | 0.7 | 1.5 | nA |
| Input Bias Current | 10 | 20 | 30 | nA |
| Input Resistance | 250 | 500 | 150 | kΩ |
| Reference Regulation | - | - | 0.1% | - |
| Reference Drift | - | - | 0.002%/°C | - |
| Total Supply Voltage | - | - | 45 V | - |
| Differential Input Voltage | - | - | ±40 V | - |
| Maximum Junction Temperature | - | - | 100°C (LM10B) | - |
| Storage Temperature | -55°C | - | 150°C | - |
Key Features
- Single Power Cell Operation: The LM10CN/NOPB can operate from a single power cell, making it suitable for portable equipment.
- High Output-Drive Capability: The device offers high output-drive capability, both in voltage and current.
- Thermal Overload Protection: It includes thermal overload protection, enhancing its reliability in demanding applications.
- Floating Mode Operation: The LM10CN/NOPB can operate in a floating mode, independent of fixed supplies, and can function as a remote comparator, signal conditioner, or transmitter for analog signals.
- Low Input Offset Voltage and Current: The device features low input offset voltage and current, ensuring high precision in signal processing.
- Reference Voltage Stability: It provides a stable reference voltage with low drift over temperature.
Applications
- Portable Equipment: Ideal for use in battery-powered devices due to its single power cell operation.
- General-Purpose Amplification: Suitable for a wide range of general-purpose applications requiring high output-drive capability and thermal protection.
- Signal Conditioning: Can be used as a signal conditioner to process and enhance analog signals.
- Remote Sensing and Transmission: Can function as a remote comparator or transmitter for analog signals, making it useful in remote sensing and data transmission applications.
- Industrial Control Systems: Applicable in industrial control systems where reliable and precise signal processing is required.
Q & A
- What is the input offset voltage of the LM10CN/NOPB?
The input offset voltage is typically 2 mV, with a maximum of 3 mV.
- Can the LM10CN/NOPB operate from a single power cell?
Yes, the LM10CN/NOPB is designed to operate from a single power cell, making it suitable for portable equipment.
- What is the maximum junction temperature for the LM10B version?
The maximum junction temperature for the LM10B version is 100°C.
- What is the reference drift of the LM10CN/NOPB?
The reference drift is 0.002%/°C.
- Does the LM10CN/NOPB have thermal overload protection?
Yes, the device includes thermal overload protection, enhancing its reliability in demanding applications.
- What are the typical applications of the LM10CN/NOPB?
The LM10CN/NOPB is typically used in portable equipment, general-purpose amplification, signal conditioning, remote sensing, and industrial control systems.
- What is the input bias current of the LM10CN/NOPB?
The input bias current is typically 20 nA, with a maximum of 30 nA.
- Can the LM10CN/NOPB operate in floating mode?
Yes, the device can operate in a floating mode, independent of fixed supplies.
- What is the storage temperature range for the LM10CN/NOPB?
The storage temperature range is from -55°C to 150°C.
- What is the differential input voltage rating for the LM10CN/NOPB?
The differential input voltage rating is ±40 V.
