AD5316ARUZ
The AD5306/AD5316/AD53261
are quad 8-/10-/12-bit buffered
voltage output DACs in 16-lead TSSOP packages that operate
from a single 2.5 V to 5.5 V supply, consuming 500 ?A at 3 V.
Their on-chip output amplifiers allow rail-to-rail output swing
with a slew rate of 0.7 V/?s. A 2-wire serial interface, which
operates at clock rates up to 400 kHz, is used. This interface is
SMBus-compatible at VDD < 3.6 V. Multiple devices can be
placed on the same bus.
AD538AD
The AD538 is a monolithic real-time computational circuit
that provides precision analog multiplication, division, and
exponentiation. The combination of low input and output offset
voltages and excellent linearity results in accurate computation
over an unusually wide input dynamic range. Laser wafer
trimming makes multiplication and division with errors as low
as 0.25% of reading possible, while typical output offsets of
100 ?V or less add to the overall off-the-shelf performance level.
Real-time analog signal processing is further enhanced by the
400 kHz bandwidth of the device.
AD565AKD
The AD565A and AD566A are fast 12-bit digital-to-analog
converters that incorporate the latest advances in analog circuit
design to achieve high speeds at low cost.
The AD565A and AD566A use 12 precision, high speed bipolar
current-steering switches, a control amplifier, and a laser-trimmed
thin-film resistor network to produce a very fast, high accuracy
analog output current. The AD565A also includes a buried
Zener reference that features low noise, long-term stability, and
temperature drift characteristics comparable to the best discrete
reference diodes
AD600JR
The AD600/AD6021
dual-channel, low noise, variable gain
amplifiers are optimized for use in ultrasound imaging systems
but are applicable to any application requiring precise gain, low
noise and distortion, and wide bandwidth. Each independent
channel provides a gain of 0 dB to 40 dB in the AD600 and
?10 dB to 30 dB in the AD602. The lower gain of the AD602
results in an improved signal-to-noise ratio (SNR) at the output.
However, both products have the same 1.4 nV/?Hz input noise
spectral density. The decibel gain is directly proportional to the
control voltage, accurately calibrated, and supply and temperature stable.
