Typical operating characteristics (continued), 3v downconverter curves – Rainbow Electronics MAX2042 User Manual

Page 11

SiGe High-Linearity, 2000MHz to 3000MHz

Upconversion/Downconversion Mixer with LO Buffer

MAX2042

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Typical Operating Characteristics (continued)

(Typical Application Circuit with tuning elements outlined in Table 1, V

= +3.3V, f

> f

, f

= 300MHz, P

= 0dBm, P

= 0dBm,

= +25NC, unless otherwise noted.)

+3.3V Downconverter Curves

CONVERSION LOSS vs. RF FREQUENCY

MAX2042 toc35

RF FREQUENCY (MHz)

CONVERSION LOSS (dB)

2800

2600

2400

2200

2000

3000

= +85NC

= +25NC

= -40NC

CONVERSION LOSS vs. RF FREQUENCY

MAX2042 toc3

RF FREQUENCY (MHz)

CONVERSION LOSS (dB)

2800

2600

2400

2200

2000

3000

= -3dBm, 0dBm, +3dBm

CONVERSION LOSS vs. RF FREQUENCY

MAX2042 toc3

RF FREQUENCY (MHz)

CONVERSION LOSS (dB)

2800

2600

2400

2200

2000

3000

= 3.0V, 3.3V, 3.6V

INPUT IP3 vs. RF FREQUENCY

MAX2042 toc38

RF FREQUENCY (MHz)

INPUT IP3 (dBm)

2800

2600

2400

2200

2000

3000

= +85NC

= +25NC

= -40NC

= 0dBm/TONE

INPUT IP3 vs. RF FREQUENCY

MAX2042 toc3

RF FREQUENCY (MHz)

INPUT IP3 (dBm)

2800

2600

2400

2200

2000

3000

= 0dBm/TONE

= -3dBm, 0dBm, +3dBm

INPUT IP3 vs. RF FREQUENCY

MAX2042 toc4

RF FREQUENCY (MHz)

INPUT IP3 (dBm)

2800

2600

2400

2200

2000

3000

= 0dBm/TONE

= 3.0V

= 3.3V, 3.6V

2RF-2LO RESPONSE vs. RF FREQUENCY

MAX2042 toc41

2RF-2LO RESPONSE (dBc)

RF FREQUENCY (MHz)

2800

2600

2400

2200

2000

3000

= 0dBm

= +85NC

= +25NC

= -40NC

2RF-2LO RESPONSE vs. RF FREQUENCY

MAX2042 toc42

2RF-2LO RESPONSE (dBc)

RF FREQUENCY (MHz)

2800

2600

2400

2200

2000

3000

= 0dBm

= +3dBm

= -3dBm

= 0dBm

2RF-2LO RESPONSE vs. RF FREQUENCY

MAX2042 toc43

2RF-2LO RESPONSE (dBc)

RF FREQUENCY (MHz)

2800

2600

2400

2200

2000

3000

= 0dBm

= 3.3V

= 3.0V

= 3.6V