ADUM1100BR
ADXL335BCPZ
FEATURES
Sensing on three axes
Small and unobtrusive packing - LFCSP 4 mm x 4 mmĀ x 1.45 mm
350 A at low power (typical)
1.8 V to 3.6 V single-supply operation
Surviving a 10,000 g shock
Outstanding temperature stability
Adjusting the BW with a single capacitor per axis
Lead-free RoHS/WEEE compliance
APPLICATIONS
Low-power, low-cost motion and tilt sensing applications
Mobile phones
Gaming platforms
Disk drive security
Stabilization of images
Sports and health equipment
AM26C31 Differential Line Receiver (SOIC)
The AM26C31 is an improved replacement for?AM26LS31 IC.?The AM26C31 device is a quadruple differential line receiver for balanced or unbalanced digital data transmission. The enable function is common to all four receivers and offers a choice of active-high or active-low input. The 3-state outputs permit connection directly to a busorganized system. Fail-safe design specifies that if the inputs are open, the outputs always are high. The AM26C31 devices are manufactured using a BiCMOS process, which is a combination of bipolar and CMOS transistors
AM26C32 Differential Line Receiver (SOIC)
AM26C32 is an improved replacement for?AM26LS32 IC. The AM26C32 device is a quadruple differential line receiver for balanced or unbalanced digital data transmission. The enable function is common to all four receivers and offers a choice of active-high or active-low input. The 3-state outputs permit connection directly to a busorganized system. Fail-safe design specifies that if the inputs are open, the outputs always are high. The AM26C32 devices are manufactured using a BiCMOS process, which is a combination of bipolar and CMOS transistors.
AM26LS32ACDR
The AM26LS32Ax and AM26LS33Ax devices are
quadruple differential line receivers for balanced and
unbalanced digital data transmission. The enable
function is common to all four receivers and offers a
choice of active-high or active-low input. The 3-state
outputs permit connection directly to a bus-organized
system. Fail-safe design ensures that, if the inputs
are open, the outputs always are high
