LTC6362, Differential Amplifier, ADCs
Fully Differential Amplifier Drives 18-bit ADCs & Consumes only 5mW
News Release from:
Linear Technology (UK) Limited
02 May 2012
Linear Technology announces the LTC6362, a low power fully differential amplifier that can drive high precision 16- and 18-bit SAR ADCs at only 1mA supply current. With 200µV max input offset voltage and 3.9nV/√Hz input-referred noise, it is well suited for precision industrial and data acquisition applications.
The LTC6362 has an output common-mode pin with a 0.5V to 4.5V range, and 18-bit settling time of 550ns with an 8VP-P output step, making it ideal for driving ADCs such as the LTC2379-18 in multiplexed input and control loop applications. This 18-bit SAR ADC features digital gain compression, which sets its full scale input range to 10% to 90% of the reference voltage. Together with the rail-to-rail output stage of the LTC6362, this feature eliminates the need for a negative supply rail, simplifying the circuit and minimizing power consumption.
The flexible architecture of the LTC6362 can convert single-ended DC-coupled, ground-referenced signals to differential, or DC level shift differential input signals. The low input bias current, low offset voltage and rail-to-rail inputs of the LTC6362 also enable its use in a high-impedance configuration to interface directly to sensors early in the signal chain.
The LTC6362 is available in MSOP-8 and 3mm x 3mm DFN packages, with fully guaranteed specifications over the 0°C to 70°C, -40°C to 85°C and -40°C to 125°C temperature ranges. Prices start at $1.59 each in 1,000-piece quantities.
Summary of Features: LTC6362
• 1mA Supply Current
• Single 2.8V to 5.25V supply
• 200µV Max Offset Voltage
• 260nA Max Input Bias Current
• Fast Settling: 550ns to 18-Bit, 8VP-POutput
• Rail-to-Rail Inputs & Outputs
• 3.9nV/√ Hz Input-Referred Noise
• 8-Lead MSOP, 8-Lead 3mm x 3mm DFN Packages