AMMC-6233-W10 Avago Technologies US Inc., AMMC-6233-W10 Datasheet

AMMC-6233-W10

Manufacturer Part Number

AMMC-6233-W10

Description

LNA, MMIC, 18 - 31 GHz

Manufacturer

Avago Technologies US Inc.

Datasheet

1.AMMC-6233-W10.pdf (9 pages)

Specifications of AMMC-6233-W10

Function

Amplifier

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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AMMC-6233

18 to 32 GHz GaAs Low Noise Amplifier

Data Sheet

Description

Avago Technologies’ AMMC-6233 is a high gain, low-

noise amplifier that operates from 18 GHz to 32 GHz.

This LNA provides a wide-band solution for system

design since it covers several bands, thus, reduces

part inventory. The device has input / output match to

50 Ohm, is unconditionally stable and can be used as

either primary or sub-sequential low noise gain stage.

By eliminating the complex tuning and assembly

processes typically required by hybrid (discrete- FET)

amplifiers, the AMMC-6233 is a cost-effective alternative

in the 18 - 32 GHz communications receivers. The

backside of the chip is both RF and DC ground. This

helps simplify the assembly process and reduces

assembly related performance variations and costs. It

is fabricated in a PHEMT process to provide exceptional

noise and gain performance. For improved reliability

and moisture protection, the die is passivated at the

active areas.

Applications

• Microwave radio systems

• Satellite VSAT, DBS up/down link

• LMDS & Pt-Pt mmW long haul

• Broadband wireless access (including 802.16 and

• WLL and MMDS loops

802.20 WiMax)

Features

• Integrated DC block and choke

• 50 Ω input and output match

• Single positive supply

• No negative gate bias

Specifications (Vd = 3.0 V, Idd = 65 mA)

• RF frequencies: 18 - 32 GHz

• Small-signal gain: 22 dB

• Low gain flatness: ±1 dB

• Typical noise figure: 3.0 dB

• Typical output IP3: 19 dBm

Chip Size: 1900 x 800 µm (74.8 x 31.5 mils)

Chip Size Tolerance: ± 10 µm (± 0.4 mils)

Chip Thickness: 100 ± 10 µm (4 ± 0.4 mils)

RF Pad Dimensions: 110 x 90 µm (4.33 x 3.54 mils)

DC Pad Dimensions: 100 x 100 µm (3.94 x 3.94 mils)

Attention: Observe precautions for

handling electrostatic sensitive devices.

ESD Machine Model (Class A)

ESD Human Body Model (Class 1A)

Refer to Avago Technologies Application Note A004R:

Electrostatic Discharge, Damage and Control.

Note:

1. This MMIC uses depletion mode pHEMT devices.

Related parts for AMMC-6233-W10

AMMC-6233-W10 Summary of contents

Page 1

... AMMC-6233 GHz GaAs Low Noise Amplifier Data Sheet Description Avago Technologies’ AMMC-6233 is a high gain, low- noise amplifier that operates from 18 GHz to 32 GHz. This LNA provides a wide-band solution for system design since it covers several bands, thus, reduces part inventory. The device has input / output match to 50 Ohm, is unconditionally stable and can be used as either primary or sub-sequential low noise gain stage ...

Page 2

... Drain Supply Voltage qjc [3] Thermal Resistance Notes: 2. Ambient operational temperature TA = 25°C unless noted 3. Channel-to-backside Thermal Resistance (Tchannel = 34°C) as measured using infrared microscopy. Thermal Resistance at backside temp. (Tb) = 25°C calculated from measured data. [4] AMMC-6233 RF Specifications T = 25° Symbol Parameters and Test Conditions ...

Page 3

... AMMC-6233 Typical Performances (T = 25° total FREQUENCY (GHz) Figure 1. Typical gain 0 -10 -20 - FREQUENCY (GHz) Figure 3. Typical input return loss Ω unless otherwise stated) in out Figure 2. Typical noise figure Figure 4. Typical output P-1dB FREQUENCY (GHz FREQUENCY (GHz) ...

Page 4

... AMMC-6233 Typical Performances (Cont’d 25° total 0 -10 -20 - FREQUENCY (GHz) Figure 5. Typical output return loss 0 -20 -40 -60 - FREQUENCY (GHz) Figure 7. Typical isolation Ω unless otherwise stated) in out 3.0 Figure 6. Total Idd over temp vs. Vdd Figure 8. Typical output IP3 over Vdd -40° ...

Page 5

... AMMC-6233 Typical Performances (Cont’d 25° total FREQUENCY (GHz) Figure 9. Typical gain over Vdd -5 -10 -15 -20 Vdd = 3 V Vdd = 4 V -25 Vdd = FREQUENCY (GHz) Figure 11. Typical input return loss over Vdd Ω unless otherwise stated) in out Vdd = 3 V Vdd = 4 V Vdd = 5 V ...

Page 6

... AMMC-6233 Typical Performances (Cont’d 25° total 0 Vdd = 3 V Vdd = 4 V Vdd = 5 V -10 -20 - FREQUENCY (GHz) Figure 13. Typical output return loss over Vdd FREQUENCY (GHz) Figure 15. Typical noise figure over temp Ω unless otherwise stated) in out 0 -5 -10 -15 -20 - Figure 14. Typical output return loss over temp ...

Page 7

... AMMC-6233 Typical Scattering Parameters S11 Freq GHz dB Mag Phase 11.0 -2.349 0.763049 94.09268 12.0 -2.831 0.721884 60.39973 13.0 -3.639 0.657746 22.62143 14.0 -5.257 0.545917 -15.0803 15.0 -6.821 0.456007 -45.926 16.0 -7.539 0.419825 -73.1573 16.5 -7.710 0.411613 -86.6582 17.0 -7.877 0.403773 -100.097 17 ...

Page 8

... Figure 19. The recommended supply voltage important to place the bypass capacitor as close to the die as possible. No negative gate bias voltage is needed for the AMMC- 6233. Input and output 50-ohm match are achieved on-chip; therefore no other external component is required at the input or output. In addition, the input and output are DC-blocked with internal coupling capacitors ...

Page 9

... Figure 18. AMMC-6233 bonding pad locations 100 pF CAPACITOR RF INPUT Figure 19. AMMC-6233 assembly diagram For product information and a complete list of distributors, please go to our website: Avago, Avago Technologies, and the A logo are trademarks of Avago Technologies Limited in the United States and other countries. ...

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