Description
BUY OPA552 https://www.utsource.net/itm/p/12607922.html
| Parameter |
Symbol |
Conditions |
Min |
Typ |
Max |
Unit |
| Supply Voltage |
Vcc |
|
-0.3 |
|
60 |
V |
| Input Offset Voltage |
Vio |
@ TA = 25°C |
-1 |
0 |
1 |
mV |
| Input Bias Current |
Ib |
@ TA = 25°C, RF = 10kΩ |
-200 |
0 |
200 |
nA |
| Input Voltage Noise |
en |
@ f = 1kHz, RTI |
|
4.5 |
|
nV/√Hz |
| Slew Rate |
SR |
@ ±15V supply |
|
8500 |
|
V/μs |
| Large Signal Bandwidth |
BWLS |
@ G = +1, RL = 2kΩ |
|
2.7 |
|
MHz |
| Output Current Limit |
Iol/Ioh |
Short circuit protection |
|
200 |
|
mA |
| Quiescent Current |
IQ |
@ ±15V supply |
|
8.5 |
|
mA |
Instructions for OPA552:
Power Supply Considerations:
- Ensure the supply voltage (Vcc) is within the specified range (-0.3V to 60V). The device is designed for dual-supply operation but can also be used in single-supply configurations.
Input Handling:
- Be mindful of the input offset voltage and bias current which can affect precision applications. Use proper compensation techniques if necessary.
Noise Management:
- For low-noise applications, consider the input voltage noise specification when selecting external components like feedback resistors.
Slew Rate and Bandwidth:
- The large signal bandwidth and slew rate are critical for high-frequency and fast transient response applications. Ensure these parameters meet the system requirements.
Output Protection:
- The output current limit provides short-circuit protection. Do not exceed the maximum output current to avoid potential damage.
Thermal Management:
- Monitor the quiescent current to manage power dissipation, especially in high-temperature environments.
Layout Recommendations:
- Follow good PCB layout practices, such as keeping signal paths short and using bypass capacitors near the power pins to ensure stable operation.
(For reference only)
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