The LMH6702QML-SP is a very wideband, dc-coupled, monolithic operational amplifier designed specifically for wide-dynamic-range systems requiring exceptional signal fidelity. Benefiting from TI’s current-feedback architecture, the LMH6702QML-SP offers unity gain stability at exceptional speed without need for external compensation.
With a 720MHz bandwidth (AV = 2V/V, VO = 2VPP), 10-bit distortion levels through 60MHz (RL = 100Ω), 1.83nV/√Hz input-referred noise, and 12.5mA supply current, the LMH6702QML-SP is an excellent driver or buffer for high-speed flash analog-to-digital (A/D) and digital-to-analog (D/A) converters.
The LMH6702QML-SP benefits wide dynamic range systems, such as radar and communication receivers, that require a wideband amplifier offering exceptional signal purity. The low input-referred noise and low harmonic and intermodulation distortion make this device an excellent choice for high-speed applications.
The LMH6702QML-SP is constructed using TI’s VIP10 complimentary bipolar process and TI’s proven current-feedback architecture.
The LMH6702QML-SP is a very wideband, dc-coupled, monolithic operational amplifier designed specifically for wide-dynamic-range systems requiring exceptional signal fidelity. Benefiting from TI’s current-feedback architecture, the LMH6702QML-SP offers unity gain stability at exceptional speed without need for external compensation.
With a 720MHz bandwidth (AV = 2V/V, VO = 2VPP), 10-bit distortion levels through 60MHz (RL = 100Ω), 1.83nV/√Hz input-referred noise, and 12.5mA supply current, the LMH6702QML-SP is an excellent driver or buffer for high-speed flash analog-to-digital (A/D) and digital-to-analog (D/A) converters.
The LMH6702QML-SP benefits wide dynamic range systems, such as radar and communication receivers, that require a wideband amplifier offering exceptional signal purity. The low input-referred noise and low harmonic and intermodulation distortion make this device an excellent choice for high-speed applications.
The LMH6702QML-SP is constructed using TI’s VIP10 complimentary bipolar process and TI’s proven current-feedback architecture.