FREQUENCY DOUBLER RF/Microwave Frequency Multipliers 105

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Manufacturers
    • Analog Devices
    • Broadcom
    • M/a-com Technology Solutions
    • Marki Microwave
    • Mini-circuits
    • NXP Semiconductors
RF or Microwave Device Type (1)
    • FREQUENCY DOUBLER
    • FREQUENCY QUADRUPLER
    • FREQUENCY TRIPLER
Mounting Feature
    • SURFACE MOUNT
No. of Terminals
    • 12
    • 16
    • 2
    • 24
    • 8
Package Body Material
    • CERAMIC
    • CERAMIC, METAL-SEALED COFIRED
    • PLASTIC/EPOXY
Technology
    • BIPOLAR
    • GAAS
    • HYBRID
    • PHEMT
No. of Functions
    • 1
Maximum Input Power (CW)
    • 10 dBm
    • 13 dBm
    • 15 dBm
    • 17 dBm
    • 18 dBm
    • 20 dBm
    • 25 dBm
    • 27 dBm
    • 30 dBm
    • 5 dBm
Maximum Voltage Standing Wave Ratio
    • 1.67
    • 1.7
    • 1.92
Maximum Supply Current
    • 100 mA
    • 1000 mA
    • 104 mA
    • 105 mA
    • 120 mA
    • 240 mA
    • 40 mA
    • 470 mA
    • 61 mA
    • 69 mA
    • 73 mA
    • 75 mA
    • 91 mA
Construction
    • COAXIAL
    • COMPONENT
    • MODULE
Power Supplies (V)
    • -1.25,-0.8/5
    • 24
    • 3.5/5
    • 4.5
    • 5
Package Equivalence Code
    • DIE OR CHIP
    • LCC12,.12SQ,20
    • LCC16,.12SQ,20
    • LCC24,.16SQ,20
    • LCC8,.2SQ,28
    • SOP8,.3
    • SOT-115J
    • TSSOP8,.19
Characteristic Impedance
    • 50 ohm
    • 75 ohm
Sub-Category
    • RF/Microwave Amplifiers
    • RF/Microwave Frequency Multipliers
Maximum Operating Temperature
    • 100 Cel
    • 85 Cel
Minimum Operating Temperature
    • -20 Cel
    • -40 Cel
    • -55 Cel
Terminal Finish
    • GOLD
    • GOLD OVER NICKEL
    • Gold (Au)
    • Gold (Au) - with Nickel (Ni) barrier
    • MATTE TIN
    • Matte Tin (Sn)
    • Matte Tin (Sn) - annealed
    • Nickel/Gold (Ni/Au)
    • Nickel/Palladium/Gold (Ni/Pd/Au)
    • TIN
    • TIN LEAD
    • Tin/Lead (Sn/Pb)
Maximum Conversion Loss
    • 13 dB
    • 15.5 dB
    • 16 dB
    • 17 dB
    • 18 dB
    • 19 dB
    • 20 dB
    • 21 dB
    • 22 dB
    • 22.5 dB
Additional Features
    • 2.92 MM
    • 2.92 MM-F
    • HIGH RELIABILITY
    • SMA-F
JESD-609 Code
    • e0
    • e3
    • e4
Minimum Operating Frequency
    • 10000 MHz
    • 11000 MHz
    • 11500 MHz
    • 12000 MHz
    • 1250 MHz
    • 12500 MHz
    • 1300 MHz
    • 13250 MHz
    • 14400 MHz
    • 16000 MHz
    • 18000 MHz
    • 19000 MHz
    • 2000 MHz
    • 20000 MHz
    • 22000 MHz
    • 24000 MHz
    • 2450 MHz
    • 2660 MHz
    • 27000 MHz
    • 2850 MHz
    • 3000 MHz
    • 32000 MHz
    • 3800 MHz
    • 40 MHz
    • 4000 MHz
    • 4500 MHz
    • 50 MHz
    • 6000 MHz
    • 6500 MHz
    • 700 MHz
    • 7000 MHz
    • 7500 MHz
    • 8000 MHz
    • 850 MHz
    • 9000 MHz
    • 9800 MHz
    • 9900 MHz
Maximum Operating Frequency
    • 1000 MHz
    • 10000 MHz
    • 1003 MHz
    • 10500 MHz
    • 11000 MHz
    • 11200 MHz
    • 12000 MHz
    • 12300 MHz
    • 12700 MHz
    • 1300 MHz
    • 13250 MHz
    • 14500 MHz
    • 15000 MHz
    • 15500 MHz
    • 16400 MHz
    • 16500 MHz
    • 18000 MHz
    • 2000 MHz
    • 20000 MHz
    • 21000 MHz
    • 22000 MHz
    • 22500 MHz
    • 23000 MHz
    • 2400 MHz
    • 24000 MHz
    • 25000 MHz
    • 2800 MHz
    • 28000 MHz
    • 29000 MHz
    • 3000 MHz
    • 31000 MHz
    • 3300 MHz
    • 33000 MHz
    • 3600 MHz
    • 4000 MHz
    • 40000 MHz
    • 4500 MHz
    • 46000 MHz
    • 5330 MHz
    • 5600 MHz
    • 8000 MHz
Reset All
Part RoHS Manufacturer RF or Microwave Device Type Mounting Feature No. of Terminals Package Body Material Technology No. of Functions Maximum Input Power (CW) Maximum Voltage Standing Wave Ratio Maximum Supply Current Construction Power Supplies (V) Package Equivalence Code Characteristic Impedance Sub-Category Maximum Operating Temperature Minimum Operating Temperature Terminal Finish Maximum Conversion Loss Additional Features JESD-609 Code Minimum Operating Frequency Maximum Operating Frequency

AMMC-6140-W50

Broadcom

FREQUENCY DOUBLER

15 dBm

40 mA

COMPONENT

4.5

DIE OR CHIP

50 ohm

RF/Microwave Frequency Multipliers

10000 MHz

20000 MHz

AMT-401X2-33

Broadcom

FREQUENCY DOUBLER

10 dBm

MODULE

13250 MHz

20000 MHz

AMMP-6125-BLKG

Broadcom

FREQUENCY DOUBLER

SURFACE MOUNT

8

PLASTIC/EPOXY

10 dBm

COMPONENT

3.5/5

LCC8,.2SQ,28

50 ohm

RF/Microwave Frequency Multipliers

85 Cel

-40 Cel

10000 MHz

24000 MHz

AMMP-6125

Broadcom

FREQUENCY DOUBLER

85 Cel

-40 Cel

AMMC-6120-W50

Broadcom

FREQUENCY DOUBLER

15 dBm

105 mA

MODULE

5

DIE OR CHIP

50 ohm

RF/Microwave Frequency Multipliers

8000 MHz

20000 MHz

AMMP-6125-TR2G

Broadcom

FREQUENCY DOUBLER

SURFACE MOUNT

8

PLASTIC/EPOXY

10 dBm

COMPONENT

3.5/5

LCC8,.2SQ,28

50 ohm

RF/Microwave Frequency Multipliers

85 Cel

-40 Cel

10000 MHz

24000 MHz

AMMP-6125-TR1G

Broadcom

FREQUENCY DOUBLER

SURFACE MOUNT

8

PLASTIC/EPOXY

10 dBm

COMPONENT

3.5/5

LCC8,.2SQ,28

50 ohm

RF/Microwave Frequency Multipliers

85 Cel

-40 Cel

10000 MHz

24000 MHz

AMMP-6120

Broadcom

FREQUENCY DOUBLER

5 dBm

COMPONENT

50 ohm

4000 MHz

12000 MHz

AMMP-6120-BLK

Broadcom

FREQUENCY DOUBLER

SURFACE MOUNT

8

PLASTIC/EPOXY

15 dBm

120 mA

COMPONENT

5

LCC8,.2SQ,28

50 ohm

RF/Microwave Frequency Multipliers

Nickel/Gold (Ni/Au)

e4

8000 MHz

24000 MHz
RF/Microwave Frequency Multipliers

RF/microwave frequency multipliers are electronic circuits that increase the frequency of an input signal by a fixed factor. They are used in radio frequency (RF) and microwave systems to generate higher frequency signals for various applications, such as in wireless communication systems, radar systems, and satellite communication systems.

Frequency multipliers work by using a non-linear element, such as a diode or a transistor, to generate harmonics of the input signal. These harmonics are then filtered to isolate the desired output frequency. The output frequency of the multiplier is dependent on the input frequency and the multiplier factor, which is determined by the design of the multiplier circuit.

RF/microwave frequency multipliers are available in various types, including passive and active multipliers. Passive multipliers use non-linear passive elements, such as diodes, to generate harmonics and do not require any external power. Active multipliers use transistors or other active components and require an external power supply. Active multipliers can achieve higher output power and provide better frequency stability compared to passive multipliers.

Frequency multipliers are essential components in many RF and microwave systems, allowing for the generation of higher frequency signals without the need for expensive and bulky equipment. They are used in a wide range of applications, such as in radar systems, satellite communication systems, and wireless communication systems.