Features: (VS = 16V, RL= 2 kΩ to V+/2, 25°C, Typical Values UnlessSpecified) Supply current (no load) 4 mA Output resistance (closed loop 1 MHz) 0.35Ω −3 dB BW (AV = 1) 190 MHz Settling time (±0.1%, 2 VPP) 35ns Input common mode voltage −0.3V to 15.1VOutput voltage swing 10...
LMH6640: Features: (VS = 16V, RL= 2 kΩ to V+/2, 25°C, Typical Values UnlessSpecified) Supply current (no load) 4 mA Output resistance (closed loop 1 MHz) 0.35Ω −3 dB BW (AV = 1) 190 MHz Set...
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Operational Amplifiers - Op Amps HIGH SPEED HIGH OUTPUT CURRENT
ESD Tolerance (Note 2)
Human Body Model ........................................2 KV
Machine Model ..............................................200V
VIN Differential .............................................±2.5V
Input Current........................................... ±10 mA
Supply Voltages (V+ V−)............................. 18V
Voltage at Input/Output Pins. V+ +0.8V, V− −0.8V
Storage Temperature Range ..−65°C to +150°C
Junction Temperature (Note 4) ...............+150°C
Soldering Information
Infrared or Convection (20 sec.) ................235°C
Wave Soldering (10 sec.)........................... 260°C
DescriptionThe LMH™6640 is a voltage feedback operational amplifier with a rail-to-rail output drive capability of 100 mA. Employing National's patented VIP10 process, the LMH6640 delivers a bandwidth of 190 MHz at a current consumption of only 4mA. An input common mode voltage range extending to 0.3V below the V− and to within 0.9V of V+, makes the LMH6640 a true single supply op-amp.
The output voltage range extends to within 100 mV of either supply rail providing the user with a dynamic range that is especially desirable in low voltage applications. The LMH6640 offers a slew rate of 170 V/µs resulting in a full power bandwidth of approximately 28 MHz with 5V single supply (2 VPP, −1 dB). Careful attention has been paid to ensure device stability under all operating voltages and modes. The result is a very well behaved frequency response characteristic for any gain setting including +1, and excellent specifications for driving video cables including total harmonic distortion of −64 dBc @ 5 MHz, differential gain of 0.12% and differential phase of 0.12°.