0v supply ac electrical characteristics – Rainbow Electronics MAX19996 User Manual

MAX19996

SiGe High-Linearity, 2000MHz to 3000MHz

Downconversion Mixer with LO Buffer

_______________________________________________________________________________________

3

+5.0V SUPPLY AC ELECTRICAL CHARACTERISTICS

(

Typical Application Circuit, V

CC

= +4.75V to +5.25V, RF and LO ports are driven from 50Ω sources, P

LO

= -3dBm to +3dBm,

P

RF

= -5dBm, f

RF

= 2300MHz to 2800MHz, f

LO

= 2000MHz to 2500MHz, f

IF

= 300MHz, f

RF

> f

LO

, T

C

= -40°C to +85°C. Typical val-

ues are at V

CC

= +5.0V, P

RF

= -5dBm, P

LO

= 0dBm, f

RF

= 2500MHz, f

LO

= 2200MHz, f

IF

= 300MHz, T

C

= +25°C, all parameters are

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

PARAMETER

SYMBOL

CONDITIONS

MIN

TYP

MAX

UNITS

Conversion Power Gain

G

C

T

C

= +25°C (Note 5)

8.1

8.7

9.3

dB

Conversion Power Gain Variation
vs. Frequency

∆G

C

f

RF

= 2300MHz to 2800MHz for any

100MHz band

0.1

dB

Conversion Power Gain
Temperature Coefficient

TC

G

T

C

= -40°C to +85°C

-0.012

dB/°C

T

C

= +25°C (Note 8)

10

11

dBm

Input 1dB Compression Point

IP

1dB

f

RF

= 2500MHz, T

C

= +25°C (Note 8)

10.4

11

dBm

Third-Order Input Intercept Point

IIP3

f

RF1

- f

RF2

= 1MHz, P

RF1

= P

RF2

= -5dBm,

T

C

= +25°C (Note 5)

22

24.5

dBm

Third-Order Input Intercept Point
Variation Over Temperature

f

RF

= 2300MHz to 2800MHz, f

IF

= 300MHz,

f

RF1

- f

RF2

= 1MHz, P

RF1

= P

RF2

= -5dBm,

T

C

= -40°C to +85°C

±0.5

dB

f

RF

= 2300MHz to 2700MHz, f

IF

= 300MHz,

single sideband, no blockers present
(Note 9)

9.6

12

Noise Figure

NF

SSB

f

R F

= 2500M H z, f

I F

= 300M H z, P

L O

= 0d Bm ,

V

CC

= +5.0V, T

C

= +25°C, single sideband,

no blockers present (Note 9)

9.6

10.5

dB

Noise Figure Temperature
Coefficient

TC

NF

f

RF

= 2000MHz to 3000MHz, single

sideband, no blockers present,
T

C

= -40°C to +85°C (Note 9)

0.0183

dB/°C

Noise Figure Under Blocking
Condition

NF

B

+8dBm blocker tone applied to RF port, f

RF

= 2300MHz, f

LO

= 2110MHz, f

BLOCKER

=

2400MHz, P

LO

= -3dBm, V

CC

= +5.0V,

T

C

= +25°C (Note 9)

20.8

25

dB

P

RF

= -10dBm

60

69

2RF-2LO Spur Rejection

2 x 2

f

RF

= 2300MHz to

2700MHz, f

LO

=

2000MHz to 2400MHz,
f

SPUR

= f

LO

+ 150MHz

P

RF

= -5dBm

(Note 5)

55

64

dBc

P

RF

= -10dBm

70

78

3RF-3LO Spur Rejection

3 x 3

f

RF

= 2300MHz to

2700MHz, f

LO

=

2000MHz to 2400MHz,
f

SPUR

= f

LO

+ 100MHz

P

RF

= -5dBm

(Note 5)

60

68

dBc

RF Input Return Loss

LO on and IF terminated into a matched
impedance

18

dB

LO Input Return Loss

RF and IF terminated into a matched
impedance

20

dB