ADA4099-1
ADA4099-1 is Precision Op Amps manufactured by Analog Devices.
FEATURES
- Ultrawide mon-mode range:
- VS
- 0.1 V to
- VS + 70 V
- Wide power supply voltage range: (VSY): +3.15 V to +50 V (±25
V for PSRR)
- Low supply current: 1.5 m A per channel (typical)
- Low input offset voltage: ±40 µV maximum
- Low input offset voltage drift: ±0.4 μV/°C maximum
- Low voltage noise:
- 1/f noise corner: 6 Hz typical
- 150 n V p-p typical at 0.1 Hz to 10 Hz
- 7 n V/√Hz typical at 100 Hz (en)
- High speed
- GBP: 8 MHz typical
- Slew rate: 5.5 V/µs typical at ΔVOUT = 25 V
- Low power shutdown: 20 µA maximum
- Low input bias current: ±10 n A maximum
- Large signal voltage gain: 120 d B minimum
- CMRR: 118 d B, minimum
- PSRR: 123 d B, minimum
- Input overdrive tolerant with no phase reversal
- ±2 k V HBM and ±1.25 k V FICDM
- Wide temperature range:
- 55°C to +150°C (H grade)
APPLICATIONS
- Industrial sensor conditioning
- Supply current sensing
- Battery and power supply monitoring
- Front-end amplifiers in abusive environments
- 4 m A to 20 m A transmitters TYPICAL APPLICATION CIRCUIT
GENERAL DESCRIPTION
The ADA4099-1 and ADA4099-2 are single/dual robust, precision, rail-to-rail input/output operational amplifiers (op amps) with inputs that operate from in this data sheet a- s VSOtvoer+-VTh Sea-n Tdopb™ey. o Tnhde, which is referred to devices feature offset voltages of <40 µV, input bias currents (IB) of <10 n A, and can operate on single or split supplies that range from 3.15 V to 50 V.
The ADA4099-1 and ADA4099-2 draws 1.5 m A of quiescent current per channel.
The ADA4099-1 and ADA4099-2 Over-The-Top input stages have robust input protection features for abusive environments. The inputs can tolerate up to 80 V of differential voltage without damage or degradation to dc accuracy. The operating input mon-mode range extends from rail-to-rail and beyond, up to 70 V >
- VS, independent of the +VS supply. The ADA4099-1 and ADA4099-2 are unity-gain stable and can drive loads requiring up to 20 m A per channel. The device can also drive capacitive loads as...
