Analogue Multipliers & Dividers

Analogue multipliers are devices in a circuit that take two analogue signals and combine them into one. The output is the product of both of the inputs. For it to be a true analogue multiplier, the two inputs must be identical signals. If the two signals differ in voltage, the second will be scaled proportionally according to the level of the first, and this is called a voltage controlled amplifer. 


What are analogue multipliers used for?

Analogue multipliers can be found in the control circuits of some industrial systems, as well as in radar circuitry. They are also used in frequency mixers.


Types of analogue multiplier

The key difference between analogue multiplier is the number of quadrants used: either one, two or four. One and two quadrant multipliers have simpler circuitry, and will therefore be the default if four quadrants are not needed.

  • Single quadrant multipliers are used when the signal is of only one polarity (either positive or negative).
  • Two quadrant multipliers can have one signal that is unipolar and another of either polarity.
  • Gilbert cells, or four quadrant multipliers, can cancel out unwanted signals as they are double balanced

...
Read more Read less

Filters

Viewing 1 - 20 of 45 products
Results per page
Description Price Number of Quadrants Output Type Number of Elements per Chip Maximum Supply Current Maximum Operating Frequency Maximum Dual Supply Voltage Minimum Dual Supply Voltage Mounting Type Package Type Pin Count Dimensions Height Length Maximum Operating Temperature
RS Stock No. 160-9976
Mfr. Part No.AD534KDZ
$114.095
Each (In a Tube of 25)
units
4 Single Ended 1 - 1 MHz ±18V ±8V Through Hole SBDIP 14 17.78 x 7.37 x 2.41mm 2.41mm 17.78mm +70 °C
RS Stock No. 157-8533
Mfr. Part No.AD834JRZ
$55.259
Each (In a Tube of 98)
units
4 Differential 1 - 500 MHz ±9V ±4V Surface Mount SOIC 8 5 x 4 x 1.5mm 1.5mm 5mm +70 °C
RS Stock No. 183-1719
Mfr. Part No.AD633ANZ
$17.908
Each (In a Tube of 50)
units
4 Single Ended 1 6 mA 1 MHz ±18V ±8V Through Hole PDIP 8 10.16 x 7.11 x 4.95mm 4.95mm 10.16mm +85 °C
RS Stock No. 523-6153
Mfr. Part No.AD633JRZ
$17.44
Each
units
4 Single Ended 1 - 1 MHz ±18V ±8V Surface Mount SOIC 8 5 x 4 x 1.5mm 1.5mm 5mm +70 °C
RS Stock No. 921-5696
Mfr. Part No.HA9P2556-9Z
$60.90
Each
units
4 Single Ended 1 22 mA 50 MHz ±15V ±5V Surface Mount SOIC W 16 10.5 x 7.6 x 2.35mm 2.35mm 10.5mm +85 °C
RS Stock No. 759-0888
Mfr. Part No.AD633JNZ
$22.54
Each
units
4 Single Ended 1 6 mA 1 MHz ±18V ±8V Through Hole PDIP 8 10.16 x 7.11 x 4.95mm 4.95mm 10.16mm +70 °C
RS Stock No. 709-5853
Mfr. Part No.AD534JDZ
$156.33
Each
units
4 Single Ended 1 - 1 MHz ±18V ±8V Through Hole TO-116 14 17.78 x 7.37 x 2.41mm 2.41mm 17.78mm +70 °C
RS Stock No. 111-1165
Mfr. Part No.AD835ARZ
$50.679
Each (In a Tube of 98)
units
4 Single Ended 1 - 250 MHz ±5.5V ±4.5V Surface Mount SOIC 8 5 x 4 x 1.5mm 1.5mm 5mm +85 °C
RS Stock No. 912-7413
Mfr. Part No.AD633JRZ
$13.871
Each (In a Tube of 98)
units
4 Single Ended 1 - 1 MHz ±18V ±8V Surface Mount SOIC 8 5 x 4 x 1.5mm 1.5mm 5mm +70 °C
RS Stock No. 121-8452
Mfr. Part No.MPY634KP
$39.526
Each (In a Tube of 25)
units
4 Single Ended 1 - 10 MHz ±18V ±8V Through Hole PDIP 14 19.3 x 6.35 x 4.57mm 4.57mm 19.3mm +85 °C
RS Stock No. 158-5291
Mfr. Part No.AD539JNZ
$73.612
Each (In a Tube of 25)
units
2 Single Ended 2 20 mA 60 MHz ±15V ±4.5V Through Hole PDIP 16 22.1 x 6.35 x 4.57mm 4.57mm 22.1mm +70 °C
RS Stock No. 522-9161
Mfr. Part No.AD834JNZ
$128.17
Each
units
4 Differential 1 - 500 MHz ±9V ±4V Through Hole PDIP 8 9.27 x 7.24 x 3.43mm 3.43mm 9.27mm +70 °C
RS Stock No. 709-2832
Mfr. Part No.AD632AHZ
$49.48
Each
units
4 Single Ended 1 - 1 MHz ±18V ±8V Through Hole TO-100 10 9.4 x 9.4 x 4.7mm 4.7mm 9.4mm +85 °C
RS Stock No. 230-589
Mfr. Part No.AD734ANZ
$55.30
Each
units
4 Single Ended 1 - 10 MHz ±16.5V ±8V Through Hole PDIP 14 16.89 x 7.24 x 3.43mm 3.43mm 16.89mm +85 °C
RS Stock No. 709-7105
Mfr. Part No.AD834ARZ
$67.00
Each
units
4 Differential 1 - 500 MHz ±9V ±4V Surface Mount SOIC 8 5 x 4 x 1.5mm 1.5mm 5mm +85 °C
RS Stock No. 111-1147
Mfr. Part No.AD835ANZ
$38.236
Each (In a Tube of 50)
units
4 Single Ended 1 - 250 MHz ±5.5V ±4.5V Through Hole PDIP 8 9.27 x 7.24 x 3.43mm 3.43mm 9.27mm +85 °C
RS Stock No. 759-2212
Mfr. Part No.AD532JHZ
$103.21
Each
units
4 Single Ended 1 6 mA 1 MHz ±18V ±10V Through Hole TO-100 10 9.4 (Diameter) x 4.7mm 4.7mm - +70 °C
RS Stock No. 183-1946
Mfr. Part No.AD633ANZ
$22.54
Each
units
4 Single Ended 1 6 mA 1 MHz ±18V ±8V Through Hole PDIP 8 10.16 x 7.11 x 4.95mm 4.95mm 10.16mm +85 °C
RS Stock No. 709-5844
Mfr. Part No.AD532JDZ
$151.72
Each
units
4 Single Ended 1 - 1 MHz ±18V ±10V Through Hole SBCDIP 14 19.94 x 7.87 x 5.08mm 5.08mm 19.94mm +70 °C
RS Stock No. 523-6967
Mfr. Part No.AD834JRZ
$62.83
Each
units
4 Differential 1 - 500 MHz ±9V ±4V Surface Mount SOIC 8 5 x 4 x 1.5mm 1.5mm 5mm +70 °C
Related Products
The Instrumentation Amplifier ICs amplify the difference between ...
Description:
The Instrumentation Amplifier ICs amplify the difference between two input signal voltages, while rejecting any signals that are common to both inputs. The DC precision and gain accuracy is maintained within a noisy environment, and also where large common-mode signals ...
The Instrumentation Amplifier ICs amplify the difference between ...
Description:
The Instrumentation Amplifier ICs amplify the difference between two input signal voltages, while rejecting any signals that are common to both inputs. The DC precision and gain accuracy is maintained within a noisy environment, and also where large common-mode signals ...
The Instrumentation Amplifier ICs amplify the difference between ...
Description:
The Instrumentation Amplifier ICs amplify the difference between two input signal voltages, while rejecting any signals that are common to both inputs. The DC precision and gain accuracy is maintained within a noisy environment, and also where large common-mode signals ...
The Instrumentation Amplifier ICs amplify the difference between ...
Description:
The Instrumentation Amplifier ICs amplify the difference between two input signal voltages, while rejecting any signals that are common to both inputs. The DC precision and gain accuracy is maintained within a noisy environment, and also where large common-mode signals ...