Technical documents
Specifications
Brand
Analog DevicesNumber of Quadrants
4
Output Type
Differential
Number of Elements per Chip
1
Maximum Operating Frequency
500 MHz
Maximum Dual Supply Voltage
±9V
Minimum Dual Supply Voltage
±4V
Mounting Type
Through Hole
Package Type
PDIP
Pin Count
8
Minimum Operating Temperature
0 °C
Height
3.43mm
Dimensions
9.27 x 7.24 x 3.43mm
Maximum Operating Temperature
+70 °C
Length
9.27mm
Width
7.24mm
Product details
Analogue Multipliers, Analog Devices
A range of analogue multipliers and dividers from Analog Devices suitable for a variety of signal processing applications. Both two and four quadrant types are available, in through-hole and SMT page options. Typical applications for these devices include differential ratio and percentage computations, algebraic and trigonometric function synthesis, accurate voltage controlled oscillators and filters, modulators and demodulators, gain control and rms-to-dc conversion.
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1
Technical documents
Specifications
Brand
Analog DevicesNumber of Quadrants
4
Output Type
Differential
Number of Elements per Chip
1
Maximum Operating Frequency
500 MHz
Maximum Dual Supply Voltage
±9V
Minimum Dual Supply Voltage
±4V
Mounting Type
Through Hole
Package Type
PDIP
Pin Count
8
Minimum Operating Temperature
0 °C
Height
3.43mm
Dimensions
9.27 x 7.24 x 3.43mm
Maximum Operating Temperature
+70 °C
Length
9.27mm
Width
7.24mm
Product details
Analogue Multipliers, Analog Devices
A range of analogue multipliers and dividers from Analog Devices suitable for a variety of signal processing applications. Both two and four quadrant types are available, in through-hole and SMT page options. Typical applications for these devices include differential ratio and percentage computations, algebraic and trigonometric function synthesis, accurate voltage controlled oscillators and filters, modulators and demodulators, gain control and rms-to-dc conversion.