MAX2029ETP ,High-Linearity, 815MHz to 1000MHz Upconversion/Downconversion Mixer with LO Buffer/SwitchApplications20 Thin Q FN-E P *M AX 2029E TP+ /+ T- 40°C to + 85° C T2055-3 ( 5mm x 5mm )Cellul ..
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MAX2029ETP
High-Linearity, 815MHz to 1000MHz Upconversion/Downconversion Mixer with LO Buffer/Switch
General DescriptionThe MAX2029 high-linearity passive upconverter or
downconverter mixer is designed to provide +36.5dBm
IIP3, 6.7dB NF, and 6.5dB conversion loss for an 815MHz
to 1000MHz RF frequency range to support GSM/cellular
base-station transmitter or receiver applications. With a
570MHz to 900MHz LO frequency range, this particular
mixer is ideal for low-side LO injection architectures. For a
pin-to-pin-compatible mixer meant for high-side LO injec-
tion, refer to the MAX2031 data sheet.
In addition to offering excellent linearity and noise perfor-
mance, the MAX2029 also yields a high level of compo-
nent integration. This device includes a double-balanced
passive mixer core, a dual-input LO selectable switch,
and an LO buffer. On-chip baluns are also integrated to
allow for a single-ended RF input for downconversion (or
RF output for upconversion), and single-ended LO inputs.
The MAX2029 requires a nominal LO drive of 0dBm, and
supply current is guaranteed to be below 100mA.
The MAX2029 is pin compatible with the MAX2039,
MAX2041, MAX2042, MAX2044 series of 1700MHz to
2200MHz, 2000MHz to 3000MHz, and 3200MHz to
3900MHz mixers, making this family of passive upcon-
verters and downconverters ideal for applications
where a common printed-circuit board (PCB) layout is
used for multiple frequency bands.
The MAX2029 is available in a compact 20-pin thin
QFN package (5mm x 5mm) with an exposed paddle.
Electrical performance is guaranteed over the extended
-40°C to +85°C temperature range.
Applications
Features815MHz to 1000MHz RF Frequency Range570MHz to 900MHz LO Frequency Range960MHz to 1180MHz LO Frequency Range (Refer to the MAX2031 Data Sheet)DC to 250MHz IF Frequency Range6dB/6.5dB (Upconverter/Downconverter)Conversion Loss36.5dBm/39dBm (Downconverter/Upconverter)Input IP3+25dBm/+27dBm (Upconverter/Downconverter)Input 1dB Compression Point6.7dB Noise FigureIntegrated LO BufferIntegrated RF and LO BalunsLow -3dBm to +3dBm LO DriveBuilt-In SPDT LO Switch with 53dB Isolation and50ns Switching TimePin Compatible with the MAX2039/MAX20411700MHz to 2200MHz MixersExternal Current-Setting Resistor Provides Optionfor Operating Mixer in Reduced-Power/Reduced-Performance ModeLead-Free Package Available
MAX2029
High-Linearity, 815MHz to 1000MHz Upconversion/
Downconversion Mixer with LO Buffer/Switch19-1017; Rev 0; 10/07
cdma2000is a registered trademark of Telecommunications
Industry Association.
Cellular Band WCDMA
and cdma2000®Base
Stations
GSM 850/GSM 900 2G
and 2.5G EDGE Base
Stations
TDMA and Integrated
Digital Enhanced
Network (iDEN®) Base
Stations
PHS/PAS Base Stations
WiMAX Base Stations
and Customer Premise
Equipment
Predistortion Receivers
Microwave and Fixed
Broadband Wireless
Access
Wireless Local Loop
Private Mobile Radios
Military Systems
Microwave Links
Digital and Spread-
Spectrum
Communication Systems
Ordering Information
PARTTEMP RANGEPIN-PACKAGEPKG
CODEAX 2029E TP /- T- 40°C to + 85° C 20 Thi n QFN- E P *5mm x 5m m )T2055- 3AX 2029E TP + /+ T- 40°C to + 85° C 20 Thi n QFN- E P *5mm x 5m m )T2055- 3
T = Tape and reel.
*EP = Exposed paddle.
+Denotes lead-free package.
MAX2029
TOP VIEW
LOBIAS
LOSEL
GND
IF+GNDGNDGND
TAP
GND
GND
VCC
GND
GND
LO1
IF-15LO2VCC
E.P.
Pin Configuration/
Functional Diagram
MAX2029
High-Linearity, 815MHz to 1000MHz Upconversion/
Downconversion Mixer with LO Buffer/Switch
ABSOLUTE MAXIMUM RATINGSStresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional
operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to
absolute maximum rating conditions for extended periods may affect device reliability.
VCCto GND...........................................................-0.3V to +5.5V
RF (RF is DC shorted to GND through a balun)..................50mA
LO1, LO2 to GND..................................................-0.3V to +0.3V
IF+, IF- to GND...........................................-0.3V to (VCC+ 0.3V)
TAP to GND...........................................................-0.3V to +1.4V
LOSEL to GND...........................................-0.3V to (VCC+ 0.3V)
LOBIAS to GND..........................................-0.3V to (VCC+ 0.3V)
RF, LO1, LO2 Input Power*............................................+20dBm
Continuous Power Dissipation (TC= +85°C) (Note A)
20-Pin Thin QFN-EP................................................................5W
θJA (Note B)....................................................................+38°C/W
θJC.................................................................................+13°C/W
Operating Temperature Range (Note C)....TC = -40°C to +85°C
Maximum Junction Temperature.....................................+150°C
Storage Temperature Range.............................-65°C to +150°C
Lead Temperature (soldering, 10s).................................+300°C
Note A:Based on junction temperature TJ= TC+ (θJCx VCCx ICC). This formula can be used when the temperature of the
exposed paddle is known while the device is soldered down to a PCB. See the Applications Informationsection for details.
The junction temperature must not exceed +150°C.
Note B:Junction temperature TJ= TA+ (θJAx VCCx ICC). This formula can be used when the ambient temperature of the EV kit
PCB is known. The junction temperature must not exceed +150°C. See the Applications Informationsection for details.
Note C:TCis the temperature on the exposed paddle of the package. TAis the ambient temperature of the device and PCB.
AC ELECTRICAL CHARACTERISTICS(Typical Application Circuit, C5 = 3.3pF, L1 and C4 not used, VCC= +4.75V to +5.25V, RF and LO ports are driven from 50Ωsources,
PLO= -3dBm to +3dBm, PRF= 0dBm, fRF= 815MHz to 1000MHz, fLO= 570MHz to 900MHz, fIF= 90MHz, fLO< fRF, TC= -40°C to
+85°C, unless otherwise noted. Typical values are at VCC= +5V, PLO= 0dBm, fRF= 920MHz, fLO= 830MHz, fIF= 90MHz, = +25°C, unless otherwise noted.) (Note 1)
PARAMETERSYMBOLCONDITIONSMINTYPMAXUNITSRF Frequency RangefRF(Note 2)8151000MHz
LO Frequency RangefLO(Note 2)570900MHz
IF Frequency RangefIFExternal IF transformer dependence (Note 2)DC250MHz
LO DrivePLO(Note 2)-3+3dBm
LO2 selected, PLO = +3dBm, TC = +25°C,
fRF = 920MHz to 960MHz, fLO = 830MHz to
870MHz53
LO1-to-LO2 Isolation (Note 3)LO1 selected, PLO = +3dBm, TC = +25°C,
fRF = 920MHz to 960MHz, fLO = 830MHz to
870MHz56
Maximum LO Leakage at RF PortPLO = +3dBm-17dBm
Maximum LO Leakage at IF PortPLO = +3dBm, fRF = 920MHz to 960MHz,
fLO = 830MHz to 870MHz (Note 3)-29.5-23dBm
*Maximum reliable continuous input power applied to the RF, LO, and IF ports of this device is +15dBm from a 50Ωsource.
DC ELECTRICAL CHARACTERISTICS(Typical Application Circuit, VCC= +4.75V to +5.25V, no RF signals applied, TC= -40°C to +85°C. IF+ and IF- are DC grounded through
an IF balun. Typical values are at VCC= +5V, TC= +25°C, unless otherwise noted.)
PARAMETERSYMBOLCONDITIONSMINTYPMAXUNITSSupply VoltageVCC4.755.005.25V
Supply CurrentICC85100mA
LOSEL Input Logic-LowVIL0.8V
LOSEL Input Logic-HighVIH2V
Input CurrentIIH, IIL±0.01µA
MAX2029
High-Linearity, 815MHz to 1000MHz Upconversion/
Downconversion Mixer with LO Buffer/Switch
AC ELECTRICAL CHARACTERISTICS (DOWNCONVERTER OPERATION)(Typical Application Circuit, C5 = 3.3pF, L1 and C4 not used, VCC= +4.75V to +5.25V, RF and LO ports are driven from 50Ωsources,
PLO= -3dBm to +3dBm, PRF= 0dBm, fRF= 815MHz to 1000MHz, fLO= 570MHz to 900MHz, fIF= 90MHz, fLO< fRF, TC= -40°C to
+85°C, unless otherwise noted. Typical values are at VCC= +5V, PLO= 0dBm, fRF= 920MHz, fLO= 830MHz, fIF= 90MHz, = +25°C, unless otherwise noted.) (Note 1)
PARAMETERSYMBOLCONDITIONSMINTYPMAXUNITSConversion LossGC6.5dB
Flatness over any one of three frequency
bands (fIF = 90MHz):
fRF = 827MHz to 849MHz
fRF = 869MHz to 894MHz
fRF = 880MHz to 915MHz
±0.2Conversion Loss Flatness (Note 3)
fRF = 920MHz to 960MHz±0.4
TC = +25°C to -40°C-0.28Conversion Loss Variation Over
TemperatureTC = +25°C to +85°C0.35dB
Input Compression PointP1dB(Note 4)27dBm
Input Third-Order Intercept PointIIP3
fRF1 = 920MHz, fRF2 = 921MHz,
PRF = 0dBm/tone, PLO = 0dBm, TC = +25°C
(Note 3)36.5dBm
TC = +25°C to -40°C-0.6Input IP3 Variation Over
TemperatureIIP3TC = +25°C to +85°C0.4dB
Output Third-Order Intercept PointOIP3
fRF1 = 920MHz, fRF2 = 921MHz, PRF =
0dBm/tone, PLO = 0dBm, TC = +25°C
(Note 3)30dBm
2 x 2
2RF - 2LO, PRF = -10dBm, fRF = 920MHz to
960MHz (fLO = 830MHz to 870MHz),
TC = +25°C72Spurious Response at IF (Note 3)
3 x 33RF - 3LO, PRF = -10dBm96
dBc
Noise FigureNFSingle sideband6.7dB
PBLOCKER = +8dBm15Noise Figure Under Blocking
(Note 5)PBLOCKER = +12dBm19dB
AC ELECTRICAL CHARACTERISTICS (continued)(Typical Application Circuit, C5 = 3.3pF, L1 and C4 not used, VCC= +4.75V to +5.25V, RF and LO ports are driven from 50Ωsources,
PLO= -3dBm to +3dBm, PRF= 0dBm, fRF= 815MHz to 1000MHz, fLO= 570MHz to 900MHz, fIF= 90MHz, fLO< fRF, TC= -40°C to
+85°C, unless otherwise noted. Typical values are at VCC= +5V, PLO= 0dBm, fRF= 920MHz, fLO= 830MHz, fIF= 90MHz, = +25°C, unless otherwise noted.) (Note 1)
PARAMETERSYMBOLCONDITIONSMINTYPMAXUNITSLO Switching Time50% of LOSEL to IF, settled within 2 degrees50ns
Minimum RF-to-IF IsolationfRF = 920MHz to 960MHz, fLO = 830MHz to
870MHz (Note 3)3847dB
RF Port Return Loss18dB
LO1/LO2 port selected, LO2/LO1, RF, and IF
terminated into 50Ω19
LO Port Return LossLO1/LO2 port unselected, LO2/LO1, RF, and
IF terminated into 50Ω31
IF Port Return LossLO driven at 0dBm, RF terminated into 50Ω23dB
MAX2029
High-Linearity, 815MHz to 1000MHz Upconversion/
Downconversion Mixer with LO Buffer/Switch
Note 1:All limits include external component losses. Output measurements are taken at IF or RF port of the Typical Application Circuit.
Note 2:Operation outside this range is possible, but with degraded performance of some parameters.
Note 3:Guaranteed by design.
Note 4:Compression point characterized. It is advisable not to continuously operate the mixer RF/IF inputs above +15dBm.
Note 5:Measured with external LO source noise filtered, so its noise floor is -174dBm/Hz at 100MHz offset. This specification reflects the
effects of all SNR degradations in the mixer, including the LO noise as defined in Maxim Application Note 2021.
AC ELECTRICAL CHARACTERISTICS (UPCONVERTER OPERATION)(Typical Application Circuit, L1 = 4.7nH, C4 = 4.7pF, C5 not used, VCC= +4.75V to +5.25V, RF and LO ports are driven from 50Ω
sources, PLO= -3dBm to +3dBm, PIF= 0dBm, fRF= 815MHz to 1000MHz, fLO= 570MHz to 900MHz, fIF= 90MHz, fLO< fRF, = -40°C to +85°C, unless otherwise noted. Typical values are at VCC= +5V, PLO= 0dBm, fRF= 920MHz, fLO= 830MHz,
fIF= 90MHz, TC= +25°C, unless otherwise noted.) (Note 1)
PARAMETERSYMBOLCONDITIONSMINTYPMAXUNITSConversion LossGC6dB
Conversion Loss Flatness
Flatness over any one of four frequency
bands (fIF = 90MHz):
fRF = 827MHz to 849MHz
fRF = 869MHz to 894MHz
fRF = 880MHz to 915MHz
fRF = 920MHz to 960MHz
±0.3dB
TC = +25°C to -40°C-0.4Conversion Loss Variation Over
TemperatureTC = +25°C to +85°C0.3dB
Input Compression PointP1dB(Note 4)25dBm
Input Third-Order Intercept PointIIP3
fIF1 = 90MHz, fIF2 = 91MHz (results in
fRF1 = 920MHz, fRF2 = 921MHz), PIF =
0d Bm /tone, P LO = 0d Bm , TC = + 25°C ( N ote 3) 39dBm
TC = +25°C to -40°C-0.6Input IP3 Variation Over
TemperatureIIP3TC = +25°C to +85°C-0.6dB
LO ± 2IF Spur71dBc
LO ± 3IF Spur86dBc
Output Noise FloorPOUT = 0dBm (Note 5)-167dBm/Hz
MAX2029
High-Linearity, 815MHz to 1000MHz Upconversion/
Downconversion Mixer with LO Buffer/Switch
Typical Operating Characteristics(Typical Application Circuit, C5 = 3.3pF, L1 and C4 not used, VCC= +5.0V, PLO= 0dBm, PRF= 0dBm, fLO< fRF, fIF= 90MHz, unless
otherwise noted.)
Downconverter Curves
CONVERSION LOSS vs. RF FREQUENCYMAX2029 toc01
RF FREQUENCY (MHz)
CONVERSION LOSS (dB)
TC = +85°C
TC = +25°CTC = -40°C
CONVERSION LOSS vs. RF FREQUENCYMAX2029 toc02
RF FREQUENCY (MHz)
CONVERSION LOSS (dB)
PLO = -3dBm, 0dBm, +3dBm
CONVERSION LOSS vs. RF FREQUENCYMAX2029 toc03
RF FREQUENCY (MHz)
CONVERSION LOSS (dB)
VCC = 4.75V, 5.0V, 5.25V
INPUT IP3 vs. RF FREQUENCY
MAX2029 toc04
RF FREQUENCY (MHz)
INPUT IP3 (dBm)
TC = +85°CTC = +25°C
TC = -40°C
INPUT IP3 vs. RF FREQUENCY
MAX2029 toc05
RF FREQUENCY (MHz)
INPUT IP3 (dBm)
PLO = -3dBm, 0dBm, +3dBm
INPUT IP3 vs. RF FREQUENCY
MAX2029 toc06
RF FREQUENCY (MHz)
INPUT IP3 (dBm)
VCC = 5.0VVCC = 5.25V
VCC = 4.75V
NOISE FIGURE vs. RF FREQUENCYMAX2029 toc07
NOISE FIGURE (dB)
TC = +85°C
TC = +25°C
TC = -40°C
NOISE FIGURE vs. RF FREQUENCYMAX2029 toc08
NOISE FIGURE (dB)
PLO = -3dBm
PLO = 0dBm, +3dBm
NOISE FIGURE vs. RF FREQUENCYMAX2029 toc09
NOISE FIGURE (dB)
VCC = 4.75V, 5.0V, 5.25V
MAX2029
High-Linearity, 815MHz to 1000MHz Upconversion/
Downconversion Mixer with LO Buffer/Switch
Downconverter Curves
Typical Operating Characteristics (continued)(Typical Application Circuit, C5 = 3.3pF, L1 and C4 not used, VCC= +5.0V, PLO= 0dBm, PRF= 0dBm, fLO< fRF, fIF= 90MHz, unless
otherwise noted.)
2RF - 2LO RESPONSE vs. RF FREQUENCY
MAX2029 toc10
RF FREQUENCY (MHz)
2RF - 2LO RESPONSE (dBc)
TC = -40°C, +25°C, +85°C
PRF = 0dBm
2RF - 2LO RESPONSE vs. RF FREQUENCY
MAX2029 toc11
RF FREQUENCY (MHz)
2RF - 2LO RESPONSE (dBc)
PRF = 0dBm
PLO = -3dBm
PLO = +3dBm
PLO = 0dBm
2RF - 2LO RESPONSE vs. RF FREQUENCY
MAX2029 toc12
RF FREQUENCY (MHz)
2RF - 2LO RESPONSE (dBc)
PRF = 0dBm
VCC = 5.0VVCC = 4.75V
VCC = 5.25V
3RF - 3LO RESPONSE vs. RF FREQUENCY
MAX2029 toc13
RF FREQUENCY (MHz)
3RF - 3LO RESPONSE (dBc)
PRF = 0dBm
TC = +85°C
TC = +25°C
TC = -40°C
3RF - 3LO RESPONSE vs. RF FREQUENCY
MAX2029 toc14
RF FREQUENCY (MHz)
3RF - 3LO RESPONSE (dBc)
PRF = 0dBm
PLO = -3dBm, 0dBm, +3dBm
3RF - 3LO RESPONSE vs. RF FREQUENCY
MAX2029 toc15
RF FREQUENCY (MHz)
3RF - 3LO RESPONSE (dBc)
PRF = 0dBm
VCC = 5.25V
VCC = 5.0V
VCC = 4.75V
INPUT P1dB vs. RF FREQUENCY
MAX2029 toc16
RF FREQUENCY (MHz)
INPUT P
1dB
(dBm)
TC = +85°C
TC = -40°C
TC = +25°C
INPUT P1dB vs. RF FREQUENCY
MAX2029 toc17
RF FREQUENCY (MHz)
INPUT P
1dB
(dBm)
PLO = -3dBm, 0dBm, +3dBm
INPUT P1dB vs. RF FREQUENCY
MAX2029 toc18
RF FREQUENCY (MHz)
INPUT P
1dB
(dBm)
VCC = 5.0V
VCC = 5.25V
VCC = 4.75V
MAX2029
High-Linearity, 815MHz to 1000MHz Upconversion/
Downconversion Mixer with LO Buffer/Switch
Downconverter Curves
Typical Operating Characteristics (continued)(Typical Application Circuit, C5 = 3.3pF, L1 and C4 not used, VCC= +5.0V, PLO= 0dBm, PRF= 0dBm, fLO< fRF, fIF= 90MHz, unless
otherwise noted.)
LO SWITCH ISOLATION vs. LO FREQUENCYMAX2029 toc19
LO FREQUENCY (MHz)
LO SWITCH ISOLATION (dB)
TC = +85°C
TC = +25°C
TC = -40°C
LO SWITCH ISOLATION vs. LO FREQUENCYMAX2029 toc20
LO FREQUENCY (MHz)
LO SWITCH ISOLATION (dB)
PLO = -3dBm, 0dBm, +3dBm
LO SWITCH ISOLATION vs. LO FREQUENCYMAX2029 toc21
LO FREQUENCY (MHz)
LO SWITCH ISOLATION (dB)
VCC = 4.75V, 5.0V, 5.25V
LO LEAKAGE AT IF PORT
vs. LO FREQUENCY
MAX2029 toc22
LO FREQUENCY (MHz)
LO LEAKAGE AT IF PORT (dBm)
TC = +85°C
TC = +25°C
TC = -40°C
LO LEAKAGE AT IF PORT
vs. LO FREQUENCY
MAX2029 toc23
LO FREQUENCY (MHz)
LO LEAKAGE AT IF PORT (dBm)
PLO = -3dBm
PLO = 0dBm, +3dBm
LO LEAKAGE AT IF PORT
vs. LO FREQUENCY
MAX2029 toc24
LO FREQUENCY (MHz)
LO LEAKAGE AT IF PORT (dBm)
VCC = 4.75V, 5.0V, 5.25V
LO LEAKAGE AT RF PORT
vs.LO FREQUENCY
MAX2029 toc25
LO LEAKAGE AT RF PORT (dBm)
TC = +85°C
TC = +25°C
TC = -40°C
LO LEAKAGE AT RF PORT
vs.LO FREQUENCY
MAX2029 toc26
LO LEAKAGE AT RF PORT (dBm)PLO = -3dBm, 0dBm, +3dBm
LO LEAKAGE AT RF PORT
vs.LO FREQUENCY
MAX2029 toc27
LO LEAKAGE AT RF PORT (dBm)VCC = 4.75V, 5.0V, 5.25V
MAX2029
High-Linearity, 815MHz to 1000MHz Upconversion/
Downconversion Mixer with LO Buffer/Switch
Downconverter Curves
Typical Operating Characteristics (continued)(Typical Application Circuit, C5 = 3.3pF, L1 and C4 not used, VCC= +5.0V, PLO= 0dBm, PRF= 0dBm, fLO< fRF, fIF= 90MHz, unless
otherwise noted.)
RF-TO-IF ISOLATION vs. RF FREQUENCY
MAX2029 toc28
RF FREQUENCY (MHz)
RF-TO-IF ISOLATION (dB)
TC = +85°C
TC = +25°CTC = -40°C
RF-TO-IF ISOLATION vs. RF FREQUENCY
MAX2029 toc29
RF FREQUENCY (MHz)
RF-TO-IF ISOLATION (dB)
PLO = -3dBm, 0dBm, +3dBm
RF-TO-IF ISOLATION vs. RF FREQUENCY
MAX2029 toc30
RF FREQUENCY (MHz)
RF-TO-IF ISOLATION (dB)
VCC = 4.75V, 5.0V, 5.25V
RF PORT RETURN LOSS
vs.RF FREQUENCY
MAX2029 toc31
RF FREQUENCY (MHz)
RF PORT RETURN LOSS (dB)PLO = -3dBm, 0dBm, +3dBm100200300400500
IF PORT RETURN LOSS
vs.IF FREQUENCYMAX2029 toc32
IF FREQUENCY (MHz)
IF PORT RETURN LOSS (dB)
VCC = 4.75V, 5.0V, 5.25V
INCLUDES IF TRANSFORMER
LO SELECTED RETURN LOSS
vs.LO FREQUENCY
MAX2029 toc33
LO FREQUENCY (MHz)
LO SELECTED RETURN LOSS (dB)PLO = -3dBm
PLO = +3dBm
PLO = 0dBm
LO UNSELECTED RETURN LOSS
vs.LO FREQUENCY
MAX2029 toc34
LO UNSELECTED RETURN LOSS (dB)
PLO = -3dBm, 0dBm, +3dBm
SUPPLY CURRENT vs. TEMPERATURE (TC)
MAX2029 toc35
SUPPLY CURRENT (mA)
VCC = 5.25V
VCC = 4.75V
VCC = 5.0V