0v supply ac electrical characteristics—f – Rainbow Electronics MAX19996A User Manual

Page 6

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MAX19996A

SiGe, High-Linearity, 2000MHz to 3900MHz
Downconversion Mixer with LO Buffer

6

_______________________________________________________________________________________

PARAMETER

SYMBOL

CONDITIONS

MIN

TYP

MAX

UNITS

Small-Signal Conversion Gain

G

C

f

RF

= 2300MHz to 2900MHz, T

C

= +25°C

(Note 7)

8.2

8.9

9.5

dB

Gain Variation vs. Frequency

∆G

C

f

RF

= 2300MHz to 2900MHz, any 100MHz

band

0.1

dB

Conversion Gain Temperature
Coefficient

TC

CG

T

C

= -40°C to +85°C

-0.012

dB/°C

No blockers present

9.5

12.5

Single Sideband Noise Figure

NF

SSB

f

RF

= 2600MHz, f

IF

= 300MHz,

P

LO

= 0dBm, V

CC

= +5.0V, T

C

= +25°C,

no blockers present

9.5

10.5

dB

Noise Figure Temperature
Coefficient

TC

NF

Single sideband, no blockers present,
T

C

= -40°C to +85°C

0.018

dB/°C

Input 1dB Compression Point

IP

1dB

T

C

= +25°C (Note 9)

9.5

10.7

dBm

Third-Order Input Intercept Point

IIP3

f

RF1

- f

RF2

= 1MHz, P

RF1

= P

RF2

= -5dBm,

T

C

= +25°C (Note 7)

22

24.05

dBm

IIP3 Variation with T

C

f

RF

= 2300MHz to 2900MHz, P

RF1

= P

RF2

=

-5dBm, T

C

= -40°C to +85°C

±0.5

dB

P

RF

= -10dBm

63

68

2RF-2LO Spur Rejection

2 x 2

f

SPUR

= f

LO

+ 150MHz

P

RF

= -5dBm

58

63

dBc

P

RF

= -10dBm

79

84

3RF-3LO Spur Rejection

3 x 3

f

SPUR

= f

LO

+ 100MHz

P

RF

= -5dBm

69

74

dBc

RF Input Return Loss

RL

RF

LO on and IF terminated into a matched
impedance

19

dB

LO Input Return Loss

RL

LO

RF and IF terminated into a matched
impedance

18

dB

IF Output Impedance

Z

IF

Nominal differential impedance at the IC’s
IF outputs

200

f

IF

= 450MHz,

L1 = L2 =
120nH

25

f

IF

= 350MHz,

L1 = L2 =
270nH

25

IF Output Return Loss

RL

IF

RF terminated into 50

Ω, LO

driven by 50

Ω source, IF

transformed to 50

Ω using

external components shown
in the Typical Application
Circuit; see the Typical
Operating Characteristics
for performance vs. inductor
values

f

IF

= 300MHz,

L1 = L2 =
390nH

25

dB

RF-to-IF Isolation

f

RF

= 2600MHz, P

LO

= +3dBm

29

36

dB

LO Leakage at RF Port

f

LO

= 1800MHz to 2900MHz, P

LO

= +3dBm

-28

-20

dBm

2LO Leakage at RF Port

f

LO

= 1800MHz to 2900MHz, P

LO

= +3dBm

-29

-19

dBm

LO Leakage at IF Port

f

LO

= 1800MHz to 2900MHz, P

LO

= +3dBm

-24

dBm

5.0V SUPPLY AC ELECTRICAL CHARACTERISTICS—f

RF

= 2300MHz TO 2900MHz,

LOW-SIDE LO INJECTION

(

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

CC

= 4.75V to 5.25V, RF and LO ports are driven from 50

sources. P

LO

= -3dBm to +3dBm, P

RF

= -5dBm, f

RF

= 2300MHz to 2900MHz, f

IF

= 300MHz, f

LO

= 2000MHz to 2600MHz, f

RF

> f

LO

,

T

C

= -40°C to +85°C. Typical values are for T

C

= +25°C, V

CC

= 5.0V, P

LO

= 0dBm, f

RF

= 2600MHz, f

LO

= 2300MHz, f

IF

= 300MHz, all

parameters are guaranteed by design and characterization, unless otherwise noted.) (Note 6)

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