2.7 V to 5.25 V, Micropower, 2-Channel, AD7887 Data Sheet
... In this case, the user can either access the internal 2.5 V reference or overdrive the internal reference with the voltage applied to this pin. The reference voltage range for an externally applied reference is 1.2 V to VDD. In twochannel mode, this pin provides the second analog input channel, AIN1 ...
... In this case, the user can either access the internal 2.5 V reference or overdrive the internal reference with the voltage applied to this pin. The reference voltage range for an externally applied reference is 1.2 V to VDD. In twochannel mode, this pin provides the second analog input channel, AIN1 ...
AD7896 AnaDev, ADC 12-bit, serial, 8uS, SOIC.pdf
... A major advantage of the AD7896 is that it provides all of the preceding functions in an 8-lead package, PDIP or SOIC. This offers the user considerable space saving advantages over alternative solutions. The AD7896 consumes only 9 mW typical, making it ideal for battery-powered applications. Conver ...
... A major advantage of the AD7896 is that it provides all of the preceding functions in an 8-lead package, PDIP or SOIC. This offers the user considerable space saving advantages over alternative solutions. The AD7896 consumes only 9 mW typical, making it ideal for battery-powered applications. Conver ...
OPA657 - Texas Instruments
... Very low level signals can be significantly amplified in a single OPA657 gain stage with exceptional bandwidth and accuracy. Having a high 1.6-GHz gain bandwidth product gives greater than 10-MHz signal bandwidths up to gains of 160 V/V (44 dB). The very low input bias current and capacitance suppor ...
... Very low level signals can be significantly amplified in a single OPA657 gain stage with exceptional bandwidth and accuracy. Having a high 1.6-GHz gain bandwidth product gives greater than 10-MHz signal bandwidths up to gains of 160 V/V (44 dB). The very low input bias current and capacitance suppor ...
YAO-.pdf
... Table 2. Frequency range by dB picking method ..................................................................... 15 Table 3. Frequency range using statistical method ................................................................... 15 Table 4. Measurements for P-wave velocity of the RPL sample ...
... Table 2. Frequency range by dB picking method ..................................................................... 15 Table 3. Frequency range using statistical method ................................................................... 15 Table 4. Measurements for P-wave velocity of the RPL sample ...
