ammc-6232 Avago Technologies, ammc-6232 Datasheet

ammc-6232

Manufacturer Part Number

ammc-6232

Description

8 To 32 Ghz Gaas High Linearity Low Noise Amplifer

Manufacturer

Avago Technologies

Datasheet

1.AMMC-6232.pdf (8 pages)

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Bonase Electronics (HK) Co., Limited

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ammc-6232-W10

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AMMC-6232

8 to 32 GHz GaAs High Linearity Low Noise Amplifier

Data Sheet

Description

Avago Technologies AMMC-6232 is an easy-to-use

broadband, high gain, high linearity Low Noise Amplifier

that operates from 18 GHz to 32GHz. The wide band and

unconditionally stable performance makes this MMIC

ideal as a primary or sub-sequential low noise block or

a transmitter or LO driver. The MMIC has 4 gain stages

and requires a 4V, 135mA power supply for optimal

performance. The two gate bias voltages can be combined

for ease of use or separated for more control flexibility. DC-

block capacitors are integrated at the input and output

stages. Since this MMIC covers several bands, it can reduce

part inventory and increase volume purchase options The

MMIC is fabricated using PHEMT technology to provide

exceptional low noise, gain and power performance. The

backside of the chip is both RF and DC ground which

helps simplify the assembly process and reduce assembly

related performance variations and cost.

Attention:Observe precautions for

handling electrostaticsensitive devices.

ESD Machine Model (Class A)

ESD Human Body Model (Class A)

Refer to Avago Application Note A004R:

Electrostatic Discharge Damage and Control

Features

• 800μm x 2000μm Die Size

• Unconditionally Stable

Specifications (Vdd = 4.0V, Idd = 135mA)

• RF Frequencies: 18 - 32 GHz

• High Output IP3: 29dBm

• High Small-Signal Gain: 27dB

• Typical Noise Figure: 2.8dB

• Input, Output Match: -10dB

Applications

• Microwave Radio systems

• Satellite VSAT, DBS Up/Down Link

• LMDS & Pt-Pt mmW Long Haul

• Broadband Wireless Access

• WLL and MMDS loops

Note:

1. This MMIC uses depletion mode pHEMT devices.

(including 802.16 and 802.20 WiMax)

Chip Size: 800 μm x 2000μm (31.5 x 78.74 mils)

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

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

Pad Dimensions: 100 x 100 μm (4 x 4 mils)

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ammc-6232 Summary of contents

Page 1

... AMMC-6232 GHz GaAs High Linearity Low Noise Amplifier Data Sheet Description Avago Technologies AMMC-6232 is an easy-to-use broadband, high gain, high linearity Low Noise Amplifier that operates from 18 GHz to 32GHz. The wide band and unconditionally stable performance makes this MMIC ideal as a primary or sub-sequential low noise block or a transmitter or LO driver. The MMIC has 4 gain stages and requires a 4V, 135mA power supply for optimal performance ...

Page 2

... Ig and Pin were determined at an ambient temperature of 25°C unless noted otherwise. DC Specifications/ Physical Properties Parameter and Test Condition Drain Supply Current (Vd=4.0 V) Drain Supply Voltage Gate Bias Current Gate Bias Voltage Thermal Resistance(3) 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-6232 RF Specifications T = 25°C, Vdd = 4.0 V, Idd = 135mA, Zo=50 Ω A Parameters and Test Conditions (4) Small signal gain (4) Noise Figure into 50W Output Power at 1dB Gain Compression (4) Output Third Order Intercept Point ...

Page 3

... AMMC-6232 Typical Performance[ 25°C, Vdd=4V, Idd=135mA Frequency (GHz) Figure 1. Small-signal Gain 0 -10 -20 - Frequency (GHz) Figure 3. Input Return Loss 0 -5 -10 -15 - Frequency (GHz) Figure 5. Output Return Loss Note 1. Noise Figure is measured with a 3-dB pad at the input . ...

Page 4

... AMMC-6232 Typical Performance (Cont 25°C, Vdd=4V, Idd=135mA -20 -30 -40 -50 -60 - Frequency (GHz) Figure 7. Isolation Frequency (GHz) Figure 9. Small-signal Gain Over Vdd 0 - Frequency (GHz) Figure 11. Input Return Loss Over Vdd ...

Page 5

... AMMC-6232 Typical Performance (Cont 25°C, Vdd=4V, Idd=135mA Frequency (GHz) Figure 13. Output P1dB Over Vdd Frequency (GHz) Figure 15. Small-signal Gain Over Temperature 0 -10 -20 25C -40C 85C - Frequency (GHz) Figure 17. Output P-1dB Over Vdd ...

Page 6

... AMMC-6232 Typical S-parameters (T = 25°C, Vdd=4V, Idd=135mA S11 Freq Mag dB Phase 1.0 0.818 -1.746 -60.021 3.0 0.804 -1.897 -116.721 5.0 0.887 -1.039 -156.457 7.0 0.899 -0.929 173.389 9.0 0.886 -1.052 146.339 11.0 0.777 -2.188 121.351 13.0 0.735 -2.669 90.767 14.0 0.678 -3.381 71.345 15.0 0.638 -3.905 50.092 16.0 0.613 -4.256 22 ...

Page 7

... DC supply After adjusting the gate bias to obtain 135mA at Vdd = 4V, the AMMC-6232 can be safely biased at Vdd (while fixing the gate bias) as desired. At 4V, the performance is an optimal compromise between DC supply DD power consumption, gain and power/linearity ...

Page 8

... Bonding pads and chip backside metallization are gold. This MMIC is also static sensitive and ESD precautions should be taken Notes: 1. Ablebond 84-1 LMI silver epoxy is recommended. 2. Eutectic attach is not recommended and may jeopardize reliability of the device. Ordering Information: AMMC-6232-W10 = 10 devices per tray AMMC-6232-W50 = 50 devices per tray VD1 725 875 660 VG1 www.avagotech.com VD2 2000 1370 ...

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