AD536AJH
The AD536A is a complete monolithic integrated circuit that performs the true RMS-to-dc conversion. It offers performance comparable to or superior to that of hybrid or modular units costing much more. The AD536A directly computes the true RMS value of any complex input waveform containing ac and dc components.
Mfr. No: AD536AJH
Mfr.:Analog Devices
Description: Power Management Specialised - PMIC RMS/DC CONVERTER IC
Datasheet: AD536AJH Datasheet (PDF)
AD559KD ANALOG DEVICE
AD586JN ANALOG DEVICE
The AD586 represents a major advance in state-of-the-art
monolithic voltage references. Using a proprietary ion-implanted
buried Zener diode and laser wafer trimming of high stability
thin-film resistors, the AD586 provides outstanding performance at low cost.
The AD586 offers much higher performance than most other
5 V references. Because the AD586 uses an industry-standard
pinout, many systems can be upgraded instantly with the
AD586.
AD620 Amplifier IC DIP-8 (Low Power)
AD620 Amplifier IC is low-cost, high-accuracy amplifiers that require only one external resistor to set gains of 1 to 10,000. These amplifiers feature 8-lead SOIC and DIP packaging that is smaller than discrete designs. The AD620 instrumentation amplifiers offer lower power and high accuracy of 40ppm (maximum) nonlinearity. In addition to this, these amplifiers also provide a low offset voltage of 50?V (maximum) and an offset drift of 0.6?V/?C (maximum). The low input bias current of 1nA (maximum) is made possible with the use of Super?eta processing in the input stage. Typical applications include battery-powered, portable, and medical devices.
Related Document:- ?AD602?SMD Data Sheet
AD623 Instrumentation Amplifier IC DIP-8
The AD623 is an integrated. or dual-supply instrumentation amplifier that delivers rail-to-rail output swing using supply voltages from 3 V to 12 V. The AD623 offers superior user flexibility by allowing single gain set resistor programming and by conforming to the 8-lead industry standard pin out configuration_ With no external resistor, the AD623 is configured for unity gain (G I), and with an external resistor, the AD623 can be programmed for gains of up to The superior accuracy of the AD623 is the result of increasing ac common -mode rejection ratio (CMRR) coincident with increasing gain; line noise harmonics are rejected due to constant CAIRR up to 200 Hz.
