ATF-551M4 View Datasheet(PDF) - Avago Technologies

Part Name

Description

MFG CO.

ATF-551M4

Low Noise Enhancement Mode Pseudomorphic HEMT in a Miniature Leadless Package

Avago Technologies 

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ATF-551M4 Electrical Specifications

TA = 25°C, RF parameters measured in a test circuit for a typical device

Symbol

Parameter and Test Condition

Units

Min.

Typ.

Max.

Vgs

Operational Gate Voltage Vds = 2.7V, Ids = 10 mA

V

0.3

0.47

0.65

Vth

Threshold Voltage Vds = 2.7V, Ids = 2 mA

V

0.18

0.37

0.53

Idss

Saturated Drain Current Vds = 2.7V, Vgs = 0V

µA

—

0.1

3

Gm

Transconductance Vds = 2.7V, gm = ∆Idss/∆Vgs; mmho

110

220

285

∆Vgs = 0.75 – 0.7 = 0.05V

Igss

Gate Leakage Current Vgd = Vgs = -2.7V

µA

—

—

95

NF

Noise Figure [1]

f = 2 GHz

Vds = 2.7V, Ids = 10 mA

Vds = 3V, Ids = 20 mA

dB ­—

dB

—

0.5

0.9

0.5

—

Gain

Gain[1]

f = 2 GHz Vds = 2.7V, Ids = 10 mA

dB

Vds = 3V, Ids = 20 mA

dB

15.5

17.5

18.5

—

18.0

—

OIP3

Output 3rd Order

f = 2 GHz Vds = 2.7V, Ids = 10 mA

dBm

22

Intercept Point[1] Vds = 3V, Ids = 20 mA

dBm

—

24.1

—

30.0

—

P1dB

1dB Compressed

f = 2 GHz Vds = 2.7V, Ids = 10 mA

dBm

—

Output Power[1] Vds = 3V, Ids = 20 mA

dBm

—

14.6

—

16.0

—

Notes:

1. Measurements obtained using production test board described in Figure 5. Typical values were determined from a sample size of 398 parts

from 4 wafers.

Input

50 Input

Transmission

Line Including

Gate Bias T

(0.3 dB loss)

Input

Matching Circuit

Γ_mag = 0.3

Γ_ang = 11

(0.3 dB loss)

Output

Matching Circuit

DUT

Γ_mag = 0.3

Γ_ang = 9

(0.9 dB loss)

50 Output

Transmission

Line Including

Gate Bias T

(0.3 dB loss)

Output

Figure 5. Block diagram of 2 GHz production test board used for Noise Figure, Gain, P1dB, OIP3, and IIP3 measurements. This circuit r­ epresents a trade-

off between an optimal noise match, maximum OIP3 match and associated impedance matching circuit losses. Circuit losses have been de-embedded

from actual measurements.

ATF-551M4 Electrical Specifications (see notes 2 and 3, as indicated)

Symbol

Parameter and Test Condition

Units

Min.

Typ.

Max.

Fmin

Minimum Noise Figure [2] f = 900 MHz

f = 2 GHz

f = 3.9 GHz

f = 5.8 GHz

Vds = 2.7V, Ids = 10 mA

Vds = 2.7V, Ids = 10 mA

Vds = 2.7V, Ids = 10 mA

Vds = 2.7V, Ids = 10 mA

dB ­—

dB

—

dB

—

dB

—

0.27

—

0.41

—

0.61

—

0.88

—

Ga

Associated Gain[2]

f = 900 MHz Vds = 2.7V, Ids = 10 mA

dB

f = 2 GHz Vds = 2.7V, Ids = 10 mA

dB

f = 3.9 GHz Vds = 2.7V, Ids = 10 mA

dB

f = 5.8 GHz Vds = 2.7V, Ids = 10 mA

dB

—

21.8

—

—

17.9

—

—

14.2

—

—

12.0

—

OIP3

Output 3rd Order

f = 900 MHz Vds = 2.7V, Ids = 10 mA

dBm

—

Intercept Point[3]

f = 3.9 GHz Vds = 2.7V, Ids = 10 mA

dBm

—

f = 5.8 GHz Vds = 2.7V, Ids = 10 mA

dBm

—

22.1

—

24.3

—

24.5

—

P1dB

1dB Compressed

f = 900 MHz Vds = 2.7V, Ids = 10 mA

dBm

—

Output Power[3]

f = 3.9 GHz Vds = 2.7V, Ids = 10 mA

dBm

—

f = 5.8 GHz Vds = 2.7V, Ids = 10 mA

dBm

—

14.3

—

14.5

—

14.3

—

Notes:

2. The Fmin values are based on a set of 16 noise figure measurements made at 16 different impedances using an ATN NP5 test system. From

these measurements Fmin is calculated. Refer to the noise parameter measurement section for more information.

3. Measurements taken above and below 2 GHz was made using a double stub tuner at the input tuned for low noise and a double stub tuner at

the output tuned for maximum OIP3. Circuit losses have been de-embedded from actual measurements.

3

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