4-quadrant multiplication Low cost, 8-lead SOIC and PDIP packages Complete—no external components required Laser-trimmed accuracy and stability Total error within 2% of full scale Differential high impedance X and Y inputs High impedance unity-gain summing input Laser-trimmed 10 V scaling reference APPLICATIONS Multiplication, division, squaring Modulation/demodulation, phase detection Voltage-controlled
· GENERAL DESCRIPTION
The AD633 is a functionally complete, four-quadrant, multiplier. It includes high impedance, differential X and Y inputs,and a high impedance summing input (Z). The low impedance
output voltage is a nominal 10 V full scale provided by a buried Zener. The AD633 is the first product to offer these features in modestly priced 8-lead PDIP and SOIC packages.The AD633 is laser calibrated to a guaranteed total accuracy of 2% of full scale. Nonlinearity for the Y input is typically less than 0.1% and noise referred to the output is typically less than 100 µV rmsin a 10 Hz to 10 kHz bandwidth. A 1 MHz bandwidth,
20 V/µs slew rate, and the ability to drive capacitive loads make the AD633 useful in a wide variety of applications where simplicity and cost are key concerns.The versatility of the AD633 is not compromised by its simplicity.
The Z input provides access to the output buffer amplifier, enabling the user to sum the outputs of two or more multipliers, increase
the multiplier gain, convert the output voltage to a current, and configure a variety of applications. For further information, see
the Multiplier Application Guide.The AD633 is available in 8-lead PDIP and SOIC packages. It is specified to operate over the 0°C to 70°C commercial temperature range (J Grade) or the −40°C to +85°C industrial temperature range (A Grade).
· PRODUCT HIGHLIGHTS
1. The AD633 is a complete four-quadrant multiplier offered in low cost 8-lead SOIC and PDIP packages. The result is a product that is cost effective and easy to apply.
2. No external components or expensive user calibration are required to apply the AD633.
3. Monolithic construction and laser calibration make the device stable and reliable.
4. High (10 MΩ) input resistances make signal source loading negligible.
5. Power supply voltages can range from ±8 V to ±18 V. The internal scaling voltage is generated by a stable Zener diode; multiplier accuracy is essentially supply insensitive.
