MAX19996AETP+ Maxim Integrated Products, MAX19996AETP+ Datasheet

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MAX19996AETP+

Manufacturer Part Number
MAX19996AETP+
Description
RF Mixer Downconversion Mixer w/LO Buffer
Manufacturer
Maxim Integrated Products
Datasheet
1.MAX19996AETP.pdf (35 pages)

Specifications of MAX19996AETP+

Lead Free Status / RoHS Status
Lead free / RoHS Compliant
The MAX19996A single, high-linearity downconversion
mixer provides 8.7dB conversion gain, +24.5dBm IIP3,
and 9.8dB noise figure for 2000MHz to 3900MHz WCS,
LTE, WiMAX™, and MMDS wireless infrastructure appli-
cations. With an ultra-wide LO frequency range of
2100MHz to 4000MHz, the MAX19996A can be used in
either low-side or high-side LO injection architectures
for virtually all 2.5GHz and 3.5GHz applications. For a
2.5GHz variant tuned specifically for low-side injection,
refer to the MAX19996 data sheet.
In addition to offering excellent linearity and noise
performance, the MAX19996A also yields a high level
of component integration. This device includes a dou-
ble-balanced passive mixer core, an IF amplifier, and
an LO buffer. On-chip baluns are also integrated to
allow for single-ended RF and LO inputs. The
MAX19996A requires a nominal LO drive of 0dBm,
and supply current is typically 230mA at V
or 150mA at V
The MAX19996A is pin compatible with the MAX19996
2000MHz to 3000MHz mixer. The device is also pin
similar with the MAX9984/MAX9986/MAX9986A
400MHz to 1000MHz mixers and the MAX9993/
MAX9994/MAX9996 1700MHz to 2200MHz mixers,
making this entire family of downconverters ideal for
applications where a common PCB layout is used for
multiple frequency bands.
The MAX19996A is available in a compact 5mm x 5mm,
20-pin thin QFN with an exposed pad. Electrical perfor-
mance is guaranteed over the extended -40°C to
+85°C temperature range.
WiMAX is a trademark of WiMAX Forum.
19-4402; Rev 1; 5/09
For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642,
or visit Maxim’s website at www.maxim-ic.com.
2.3GHz WCS Base Stations
2.5GHz WiMAX and LTE Base Stations
2.7GHz MMDS Base Stations
3.5GHz WiMAX and LTE Base Stations
Fixed Broadband Wireless Access
Wireless Local Loop
Private Mobile Radios
Military Systems
SiGe, High-Linearity, 2000MHz to 3900MHz
CC
________________________________________________________________ Maxim Integrated Products
= 3.3V.
General Description
Downconversion Mixer with LO Buffer
Applications
CC
= 5.0V,
♦ 2000MHz to 3900MHz RF Frequency Range
♦ 2100MHz to 4000MHz LO Frequency Range
♦ 50MHz to 500MHz IF Frequency Range
♦ 8.7dB Conversion Gain
♦ 9.8dB Noise Figure
♦ +24.5dBm Typical Input IP3
♦ 11dBm Typical Input 1dB Compression Point
♦ 67dBc Typical 2LO-2RF Spurious Rejection at
♦ Integrated LO Buffer
♦ Integrated RF and LO Baluns for Single-Ended
♦ Low -3dBm to +3dBm LO Drive
♦ Pin Compatible with the MAX19996 2000MHz to
♦ Pin Similar with the MAX9993/MAX9994/MAX9996
♦ Single 5.0V or 3.3V Supply
♦ External Current-Setting Resistors Provide Option
+ Denotes a lead(Pb)-free/RoHS-compliant package.
* EP = Exposed pad.
T = Tape and reel.
Pin Configuration/Functional Diagram appears at end of
data sheet.
MAX19996AETP+
MAX19996AETP+T
P
Inputs
3000MHz Mixer
Series of 1700MHz to 2200MHz Mixers and the
MAX9984/MAX9986/MAX9986A Series of 400MHz
to 1000MHz Mixers
for Operating Device in Reduced-Power/Reduced-
Performance Mode
RF
= -10dBm
PART
Ordering Information
-40°C to +85°C
-40°C to +85°C
TEMP RANGE
PIN-PACKAGE
20 Thin QFN-EP*
20 Thin QFN-EP*
Features
1

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MAX19996AETP+ Summary of contents

Page 1

... Mixers ♦ Single 5.0V or 3.3V Supply ♦ External Current-Setting Resistors Provide Option for Operating Device in Reduced-Power/Reduced- Performance Mode Applications PART MAX19996AETP+ MAX19996AETP+T + Denotes a lead(Pb)-free/RoHS-compliant package Exposed pad Tape and reel. Pin Configuration/Functional Diagram appears at end of data sheet. Features Ordering Information ...

Page 2

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer ABSOLUTE MAXIMUM RATINGS V to GND ...........................................................-0.3V to +5.5V CC IF+, IF GND ....................................-0. RF, LO Input Power ........................................................+12dBm RF, LO Current (RF and LO is ...

Page 3

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer RECOMMENDED AC OPERATING CONDITIONS PARAMETER SYMBOL RF Frequency Range LO Frequency IF Frequency LO Drive 5.0V SUPPLY AC ELECTRICAL CHARACTERISTICS—f HIGH-SIDE LO INJECTION ( Typical Application Circuit with tuning elements ...

Page 4

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer 5.0V SUPPLY AC ELECTRICAL CHARACTERISTICS—f HIGH-SIDE LO INJECTION (continued) ( Typical Application Circuit with tuning elements outlined in Table 1, V sources -3dBm to +3dBm ...

Page 5

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer 3.3V SUPPLY AC ELECTRICAL CHARACTERISTICS—f HIGH-SIDE LO INJECTION ( Typical Application Circuit with tuning elements outlined in Table 1, RF and LO ports are driven from 50Ω sources. Typical values ...

Page 6

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer 5.0V SUPPLY AC ELECTRICAL CHARACTERISTICS—f LOW-SIDE LO INJECTION ( Typical Application Circuit with tuning elements outlined in Table 1, V sources -3dBm to +3dBm -5dBm, f ...

Page 7

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer 5.0V SUPPLY AC ELECTRICAL CHARACTERISTICS—f LOW-SIDE LO INJECTION ( Typical Application Circuit with tuning elements outlined in Table 1, V sources -3dBm to +3dBm -5dBm, f ...

Page 8

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer 5.0V SUPPLY AC ELECTRICAL CHARACTERISTICS—f LOW-SIDE LO INJECTION (continued) ( Typical Application Circuit with tuning elements outlined in Table 1, V sources -3dBm to +3dBm -5dBm, ...

Page 9

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer +5.0V SUPPLY AC ELECTRICAL CHARACTERISTICS—f HIGH-SIDE LO INJECTION (continued) ( Typical Application Circuit with tuning elements outlined in Table 1, V sources, Typical values are for T = +25°C, V ...

Page 10

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer ( Typical Application Circuit with tuning elements outlined in Table 1, V injected for a 300MHz IF -5dBm CONVERSION GAIN vs. RF FREQUENCY ...

Page 11

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer ( Typical Application Circuit with tuning elements outlined in Table 1, V injected for a 300MHz IF -5dBm 2LO-2RF RESPONSE vs. RF FREQUENCY ...

Page 12

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer ( Typical Application Circuit with tuning elements outlined in Table 1, V injected for a 300MHz IF -5dBm LEAKAGE AT IF PORT vs. LO FREQUENCY ...

Page 13

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer ( Typical Application Circuit with tuning elements outlined in Table 1, V injected for a 300MHz IF -5dBm 2LO LEAKAGE AT RF PORT vs. LO FREQUENCY ...

Page 14

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer ( Typical Application Circuit with tuning elements outlined in Table 1, V injected for a 300MHz IF -5dBm CONVERSION GAIN vs. RF FREQUENCY ...

Page 15

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer ( Typical Application Circuit with tuning elements outlined in Table 1, V injected for a 300MHz IF -5dBm 2LO-2RF RESPONSE vs. RF FREQUENCY ...

Page 16

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer ( Typical Application Circuit with tuning elements outlined in Table 1, V injected for a 300MHz IF -5dBm LEAKAGE AT IF PORT vs. LO FREQUENCY ...

Page 17

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer ( Typical Application Circuit with tuning elements outlined in Table 1, V injected for a 300MHz IF -5dBm 2LO LEAKAGE AT RF PORT vs. LO FREQUENCY ...

Page 18

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer ( Typical Application Circuit with tuning elements outlined in Table 1, V injected for a 300MHz IF -5dBm CONVERSION GAIN vs. RF FREQUENCY ...

Page 19

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer ( Typical Application Circuit with tuning elements outlined in Table 1, V injected for a 300MHz IF -5dBm 2RF-2LO RESPONSE vs. RF FREQUENCY ...

Page 20

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer ( Typical Application Circuit with tuning elements outlined in Table 1, V injected for a 300MHz IF -5dBm LEAKAGE AT IF PORT vs. LO FREQUENCY ...

Page 21

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer ( Typical Application Circuit with tuning elements outlined in Table 1, V injected for a 300MHz IF -5dBm 2LO LEAKAGE AT RF PORT vs. LO FREQUENCY ...

Page 22

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer ( Typical Application Circuit with tuning elements outlined in Table 1, V injected for a 300MHz IF -5dBm CONVERSION GAIN vs. RF FREQUENCY ...

Page 23

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer ( Typical Application Circuit with tuning elements outlined in Table 1, V injected for a 300MHz IF -5dBm 2RF-2LO RESPONSE vs. RF FREQUENCY ...

Page 24

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer ( Typical Application Circuit with tuning elements outlined in Table 1, V injected for a 300MHz IF -5dBm LEAKAGE AT IF PORT vs. LO FREQUENCY ...

Page 25

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer ( Typical Application Circuit with tuning elements outlined in Table 1, V injected for a 300MHz IF -5dBm 2LO LEAKAGE AT RF PORT vs. LO FREQUENCY ...

Page 26

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer ( Typical Application Circuit with tuning elements outlined in Table 1, V injected for a 300MHz IF -5dBm CONVERSION GAIN vs. RF FREQUENCY ...

Page 27

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer ( Typical Application Circuit with tuning elements outlined in Table 1, V injected for a 300MHz IF -5dBm 2LO-2RF RESPONSE vs. RF FREQUENCY ...

Page 28

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer ( Typical Application Circuit with tuning elements outlined in Table 1, V injected for a 300MHz IF -5dBm LEAKAGE AT IF PORT vs. LO FREQUENCY ...

Page 29

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer ( Typical Application Circuit with tuning elements outlined in Table 1, V injected for a 300MHz IF -5dBm 2LO LEAKAGE AT RF PORT vs. LO FREQUENCY ...

Page 30

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer PIN NAME Power Supply. Bypass to GND with 0.01µF capacitors as close as possible to the pin. CC Single-Ended 50Ω RF Input. Internally matched and ...

Page 31

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer High-Linearity Mixer The core of the MAX19996A is a double-balanced, high-performance passive mixer. Exceptional linearity is provided by the large LO swing from the on-chip LO buffer. When combined with ...

Page 32

... Murata Electronics North America, Inc. Murata Electronics North America, Inc. — Murata Electronics North America, Inc. Murata Electronics North America, Inc. Murata Electronics North America, Inc. Coilcraft, Inc. Coilcraft, Inc. Digi-Key Corp. Digi-Key Corp. Digi-Key Corp. Mini-Circuits Maxim Integrated Products, Inc. ...

Page 33

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer C13 C14 R1 +5. INPUT GND 3 GND 4 EP GND 5 6 +5. ______________________________________________________________________________________ ...

Page 34

SiGe, High-Linearity, 2000MHz to 3900MHz Downconversion Mixer with LO Buffer Pin Configuration/ Functional Diagram TOP VIEW MAX19996A GND 4 GND EP 5 GND ______________________________________________________________________________________ PROCESS: SiGe ...

Page 35

... Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are implied. Maxim reserves the right to change the circuitry and specifications without notice at any time. Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 ____________________ 35 © 2009 Maxim Integrated Products DESCRIPTION Maxim is a registered trademark of Maxim Integrated Products, Inc ...

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