IAM-82028 Datasheet, PDF(3/4 Page) Agilent(Hewlett-Packard) – Silicon Bipolar MMIC 5 GHz Active Double Balanced Mixer/ IF Amp

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IAM-82028 Datasheet, PDF (3/4 Pages) Agilent(Hewlett-Packard) – Silicon Bipolar MMIC 5 GHz Active Double Balanced Mixer/ IF Amp

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Typical Performance, TA = 25Â°C, VCC = 10 V

RF: -20 dBm at 2 GHz, LO: 0 dBm at 1.75 GHz

(unless otherwise noted)

100

ICC

P1 dB

VCC (V)

Figure 1. Conversion Gain, IF P1 dB

and ICC Current vs. VCC Bias Voltage.

P1 dB

ICC

â5

â55 â25

+25

+85

+125

TEMPERATURE (Â°C)

Figure 2. Conversion Gain, IF P1 dB

and ICC Current vs. Case Temperature.

IF = 70 MHz

0.1 0.2

IF = 1 GHz

0.5 1.0 2.0 5.0 10

RF FREQUENCY (GHz)

Figure 3. Typical RF to IF Conversion

Gain vs. RF Frequency, TA = 25Â°C

(Low Side LO).

4:1

3:1

2:1

1:1

0.1

1.0

FREQUENCY (GHz)

Figure 4. RF, LO and IF Port VSWR

vs. Frequency.

â10

â5

LO POWER (dBm)

Figure 5. RF to IF Conversion Gain

vs. LO Power.

LO = 2 GHz

LO = 4 GHz

High Side LO

Low Side LO

0.01

0.1

1.0 2.0 4.0

FREQUENCY, RFâLO (GHz)

Figure 6. RF to IF Conversion Gain

vs. IF Frequency.

RF to IF

LO to IF

LO to RF

â10

â20

â30

â40

0.1

1.0

FREQUENCY (GHz)

Figure 7. RF Feedthrough Relative to

IF Carrier, dBm LO to RF and IF

Leakage vs. Frequency.

0 â 23 40 >75 >75 >75

1 12 0 52 60 >75 >75

2 6 35 43 >75 >75 >75

3 27 18 59 74 >75 >75

4 22 38 52 >75 >75 >75

5 41 36 73 74 >75 >75

01 2 34 5

HARMONIC RF ORDER

Xmn = Pif â P(m*rf â n*lo)

Figure 8. Harmonic Intermodulation

Suppression (dB Below Desired Output)

RF at 1 GHz, LO at 0.752 GHz, IF at 0.248 GHz.

7-133

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