Details
BUY AD829JR https://www.utsource.net/itm/p/817208.html
High-Speed, Low-Noise Video Op Amp
| Parameter | Symbol | Conditions | Min | Typical | Max | Unit |
|---|---|---|---|---|---|---|
| Supply Voltage | VCC | - | 10 | - | 36 | V |
| Supply Current | ICC | VCC = 15V, no load | - | 7.5 | - | mA |
| Input Offset Voltage | VIO | - | - | 1.0 | 4.0 | mV |
| Input Bias Current | IB | - | - | 10 | 30 | nA |
| Input Voltage Range | VI | - | - | VCC - 2.5 | - | V |
| Output Voltage Swing | VO | RL = 600 Ω, VCC = 15V | 0.5 | - | 13 | V |
| Gain Bandwidth Product | GBW | - | - | 100 | - | MHz |
| Slew Rate | SR | - | - | 450 | - | V/μs |
| Large Signal Voltage Gain | AV | VCC = 15V, f = 1kHz | 100 | - | 200 | dB |
| Noise Voltage | en | 0.1 Hz to 10 Hz | - | 3.0 | - | μVp-p |
Instructions for Use:
Power Supply:
- The AD829JR operates with a supply voltage ranging from 10V to 36V. Ensure the supply voltage is within this range to avoid damage to the device.
Biasing:
- The input bias current is typically 10 nA to 30 nA. Use appropriate biasing techniques to ensure stable operation.
Input Voltage:
- The input voltage range should not exceed VCC - 2.5V to prevent clipping or distortion.
Output Voltage Swing:
- The output voltage swing is limited by the supply voltage and load resistance. For optimal performance, ensure the load resistance is within the specified range (e.g., 600 Ω).
Gain and Bandwidth:
- The gain bandwidth product (GBW) is 100 MHz, allowing for high-frequency applications. The large signal voltage gain is between 100 dB and 200 dB at 1 kHz.
Noise Considerations:
- The noise voltage is 3.0 μVp-p over the 0.1 Hz to 10 Hz frequency range. Use proper shielding and grounding techniques to minimize noise.
Slew Rate:
- The slew rate is 450 V/μs, which is important for handling fast-changing signals without distortion.
Mounting and Handling:
- Handle the AD829JR with care to avoid static discharge and physical damage. Follow standard ESD precautions during assembly and testing.
Thermal Management:
- Ensure adequate heat dissipation if operating at high power levels or in high ambient temperatures.
Stability:
- Use appropriate compensation techniques to maintain stability, especially in high-gain configurations.
For more detailed information, refer to the datasheet provided by Analog Devices.
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