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MAX2510EEI+ |MAX2510EEIMAXIMN/a50avaiLow-Voltage IF Transceiver with Limiter RSSI and Quadrature Modulator
MAX2510EEI+T |MAX2510EEITMAXIMN/a315avaiLow-Voltage IF Transceiver with Limiter RSSI and Quadrature Modulator
MAX2510EEI-T |MAX2510EEITMAXIMN/a1170avaiLow-Voltage IF Transceiver with Limiter RSSI and Quadrature Modulator


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MAX2510EEI+-MAX2510EEI+T-MAX2510EEI-T
Low-Voltage IF Transceiver with Limiter RSSI and Quadrature Modulator
________________General Description
The MAX2510 is a highly integrated IF transceiver for
digital wireless applications. It operates from a +2.7V to
+5.5V supply voltage and features four operating
modes for advanced system power management.
Supply current is reduced to 0.2µA in shutdown mode.
In a typical application, the receiver downconverts a
high IF/RF (up to 600MHz) to a low IF (up to 30MHz)
using a double-balanced mixer. Additional functions
included in the receiver section are an IF buffer that
can drive an off-chip filter, an on-chip limiting amplifier
offering 90dB of received-signal-strength indication
(RSSI), and a robust differential limiter output driver
designed to directly drive a CMOS input. The transmit-
ter section upconverts I and Q baseband signals to an
IF in the 100MHz to 600MHz range using a quadrature
modulator. The transmit output is easily matched to
drive a SAW filter with an adjustable output from 0dBm
to -40dBm and excellent linearity.
The MAX2511 has features similar to the MAX2510, but
upconverts a low IF with an image-reject mixer. The
MAX2511 downconverter also offers image rejection
with a limiter/RSSI stage similar to that of the MAX2510.
________________________Applications

PWT1900, Wireless Handsets, and Base Stations
PACS, PHS, DECT, and Other PCS Wireless
Handsets and Base Stations
400MHz ISM Transceivers
IF Transceivers
Wireless Data Links
____________________________Features
+2.7V to +5.5V Single-Supply OperationComplete Receive Path: 600MHz (max) 1st IF to
30MHz (max) 2nd IF
Unique, Wide-Dynamic-Range Downconverter
Mixer Offers -8dBm IIP3, 11dB NF
90dB Dynamic-Range Limiter with High-Accuracy
RSSI Function
Differential Limiter Output Directly Drives
CMOS Input
100MHz to 600MHz Transmit Quadrature
Modulator with 41dB Sideband Suppression
40dB Transmit Gain-Control Range; Up to +1dBm
Output Power
Advanced Power Management (four modes)0.2µA Shutdown Supply Current
MAX2510
Low-Voltage IF Transceiver with
Limiter/RSSI and Quadrature Modulator

VREF
MIXOUT
GND
RXIN
TXOUT
TXOUT
RXIN
VCC
GND
VCC
LIMOUT
LIMOUT
RXEN
TXEN
GND
VCC
GND
RSSI
LIMIN
QSOP

TOP VIEW
MAX2510
___________________Pin Configuration

19-1296; Rev 2; 1/01
PART

MAX2510EEI-40°C to +85°C
TEMP. RANGEPIN-PACKAGE

28 QSOP
EVALUATION KIT MANUAL
FOLLOWS DATA SHEET
_______________Ordering Information
Typical Operating Circuit appears on last page.
MAX2510
Low-Voltage IF Transceiver with
Limiter/RSSI and Quadrature Modulator
ABSOLUTE MAXIMUM RATINGS
DC ELECTRICAL CHARACTERISTICS

(VCC= +2.7V to +5.5V; 0.01µF across CZ and CZ; LO, LOopen; MIXOUT tied to VREF through a 165Ωresistor; GC = 0.5V; RXIN,
RXINopen; LIMIN tied through 50Ωto VREF; LIMOUT, LIMOUT= open; RXEN, TXEN = high; bias voltage at I, I, Q, Q= 1.4V; = -40°C to +85°C; unless otherwise noted. Typical values are at TA= +25°C.)
AC ELECTRICAL CHARACTERISTICS

(MAX2510 test fixture; VCC= +3.0V; RXEN = TXEN = low; 0.01µF across CZ and CZ; MIXOUT tied to VREF through 165Ωresistor;
TXOUT and TXOUTloaded with 100Ωdifferential; LO terminated with 50Ω, LOAC grounded; GC open; LIMOUT, LIMOUTare AC
coupled to 250Ωload; 330pF at RSSI pin; 0.1µF connected from VREF pin to GND; PRXIN, RXIN= -30dBm differentially driven (input
matched); fRXIN, RXIN= 240MHz; bias voltage at I, I, Q, Q= 1.4V; VI,Q= 500mVp-p; fI,Q= 200kHz; fLO, LO= 230MHz; PLO = -13dBm;= +25°C; unless otherwise noted.)
Stresses 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 8.0V
VCCto Any Other VCC........................................................±0.3V
I, I, Q, Qto GND.........................................-0.3V to (VCC+ 0.3V)
I to I, Q to QDifferential Voltage............................................±2V
RXIN to RXINDifferential Voltage..........................................±2V
LOIN to LOINDifferential Voltage..........................................±2V
LIMIN Voltage.............................(VREF - 1.3V) to (VREF + 1.3V)
RXEN, TXEN, GC Voltage...........................-0.3V to (VCC+ 0.3V)
RXEN, TXEN, GC Input Current............................................1mA
RSSI Voltage...............................................-0.3V to (VCC+ 0.3V)
Continuous Power Dissipation (TA= +70°C)
QSOP (derate 10mW/°C above +70°C)........................650mW
Operating Temperature Range...........................-40°C to +85°C
Junction Temperature......................................................+150°C
Storage Temperature Range.............................-65°C to +165°C
Lead Temperature (soldering, 10sec).............................+300°C
CONDITIONS
2.73.05.5Operating Voltage Range
UNITSMINTYPMAXPARAMETER

RXEN, TXENV2.0Digital Input Voltage High
RXEN, TXEN = 2.0VµA630Digital Input Current High
RXEN, TXENV0.4Digital Input Voltage Low
Receive mode, RXEN = high, TXEN = low1420
Standby mode, RXEN = high, TXEN = high
RXEN, TXEN = 0.4V
Transmit mode, RXEN = low, TXEN = high1725-50.1Digital Input Current Low
Shutdown mode, RXEN = low, TXEN = lowµA0.25
Supply CurrentVCC/ 2 -VCC/ 2VCC/ 2 +
100mV100mVVREF Voltage
(Note 1)kΩ5085GC Input Resistance
(Note 2)MHz100600Input Frequency Range
Single sidebanddB11Noise Figure= +25°CdB20.522.525Conversion Gain
CONDITIONS

(Note 4)dBm-18.5Input 1dB Compression Point
Two tones at 240MHz and 240.2MHz,
-30dBm per tonedBm-8Input Third-Order Intercept
UNITSMINTYPMAXPARAMETER

dBc49LO to RXIN Isolation
Standby to RX or TX (Note 5)µs5Power-Up Time
DOWNCONVERTER
(RXEN = high)
19.925.5TA= -40°C to +85°C (Note 3)
MAX2510
Low-Voltage IF Transceiver with
Limiter/RSSI and Quadrature Modulator
AC ELECTRICAL CHARACTERISTICS (continued)

(MAX2510 test fixture; VCC= +3.0V; RXEN = TXEN = low; 0.01µF across CZ and CZ; MIXOUT tied to VREF through 165Ωresistor;
TXOUT and TXOUTloaded with 100Ωdifferential; LO terminated with 50Ω, LOAC grounded; GC open; LIMOUT, LIMOUTare AC
coupled to 250Ωload; 330pF at RSSI pin; 0.1µF connected from VREF pin to GND; PRXIN, RXIN= -30dBm differentially driven (input
matched); fRXIN, RXIN= 240MHz; bias voltage at I, I, Q, Q= 1.4V; VI,Q= 500mVp-p; fI,Q= 200kHz; fLO, LO= 230MHz; PLO = -13dBm;= +25°C; unless otherwise noted.)
Note 1:
This pin is internally terminated to approximately 1.35V through the specified resistance.
Note 2:
Downconverter gain is typically greater than 20dB. Operation outside this frequency range is possible but has not been
characterized.
Note 3:
Guaranteed by design and characterization.
LIMOUT, LIMOUTmV±270±300±350
-85dBm to 5dBm
Limiter Output Voltage Swing
-75dBm to 5dBmdegrees±4.5
Phase VariationMinimum Monotonic RSSI Range
-75dBm to 5dBm from 50ΩmV/dB20RSSI Slope
CONDITIONS

-75dBm to 5dBmdB80Minimum Linear RSSI Range
UNITSMINTYPMAXPARAMETER

(Note 6)dBm-86
At LIMIN input of +5dBm
RSSI Maximum Zero-Scale Intercept= +25°CdB±0.5±2.0
RSSI Relative Error (Notes 6, 7)
1.8Maximum-Scale RSSI Voltage
At LIMIN input of -75dBmV0.25Minimum-Scale RSSI Voltage
I, I, Q, Qinputs are 250mVp-p centered around
this voltage, GC = 2.0V (Note 9)
(Note 8)MHz100600Frequency Range
1.3VCC-
1.2I, I, Q, QAllowable Common-Mode
Voltage Range
GC = 0.5V-41
GC = 2.0V(Note 9)
GC = open-16
90°phase difference between I and Q inputs;
GC = 2VdBc3040Unwanted Sideband Suppression
dBm-2.51Output Power
GC = 2V (Note 11)-33Output IM3 Level
GC = 2V (Note 11)dBc-51Output IM5 Level
GC = 0.5V (Note 11)dBc-49
I, Q are 500mVp-p while I, Qare heldat this DC
voltage (Note 9)1.4VCC -
90°phase difference between I and Q inputs;
measured to fundamental tone; GC = 2VdBc3044LO Rejection= -40°C to +85°C (Note 3)±3.0= +25°C
(Note 3)MHz7080I, I, Q, Q1dB Bandwidth
LIMITING AMPLIFIER AND RSSI (RXEN = high, fLIMIN
= 10MHz, PLIMIN= -30dBm from 50Ωsource, unless otherwise noted)
TRANSMITTER (TXEN = high)
= -40°C to +85°C
MAX2510
Low-Voltage IF Transceiver with
Limiter/RSSI and Quadrature Modulator
__________________________________________Typical Operating Characteristics

(MAX2510 EVkit; VCC= +3.0V; 0.01µF across CZ and CZ; MIXOUT tied to VREF through 165Ωresistor; TXOUT and TXOUTloaded
with 100Ωdifferential; LO terminated with 50Ω; LOAC grounded; GC open; LIMOUT, LIMOUTopen; 330pF at RSSI pin; 0.1µF con-
nected from VREF pin to GND; PRXIN, RXIN= -30dBm differentially driven (input matched); fRXIN,RXIN= 240MHz; bias voltage at I, I,
Q, Q= 1.4V; VI,Q= 500mVp-p; f I, Q= 200kHz; fLO, LO= 230MHz; PLO= -13dBm; TA= +25°C; unless otherwise noted.)
SUPPLY CURRENT
vs. TEMPERATURE
MAX2510toc01
TEMPERATURE (°C)
SUPPLY CURRENT (mA)
STANDBY
SUPPLY CURRENT
vs. SUPPLY VOLTAGE
MAX2510toc02
SUPPLY VOLTAGE (V)
SUPPLY CURRENT (mA)
STANDBY
TRANSMITTER SUPPLY CURRENT
vs. GC VOLTAGE
MAX2510toc03
GC VOLTAGE (V)
SUPPLY CURRENT (mA)
Note 4:
Driving RXIN or RXINwith a power level greater than the 1dB compression level forces the input stage out of its linear
range, causing harmonic and intermodulation distortion. The RSSI output increases monotonically with increasing input
levels beyond the mixer’s 1dB compression level. Input 1dB compression point is limited by MIXOUT voltage swing, which
is approximately 2Vp-p into a 165Ωload.
Note 5:
Assuming the supply voltage has been applied, this includes limiter offset-correction settling and Rx or Tx bias stabilization
time. Guaranteed by design and characterization.
Note 6:
The RSSI maximum zero-scale intercept is the maximum (over a statistical sample of parts) input power at which the RSSI
output would be 0V. This point is extrapolated from the linear portion of the RSSI Output Voltage vs. Limiter Input Power
graph in the Typical Operating Characteristics. This specification and the RSSI slope define the RSSI function’s ideal
behavior (the slope and intercept of a straight line), while the RSSI relative error specification defines the deviations from
this line. See the Typical Operating Characteristicsfor the RSSI Output Voltage vs. Limiter Input Power graph.
Note 7:
The RSSI relative error is the deviation from the best-fitting straight line of the RSSI output voltage versus the limiter input
power. This number represents the worst-case deviation at any point along this line. A 0dB relative error is exactly on the
ideal RSSI transfer function. The limiter input power range for this test is -75dBm to 5dBm from 50Ω. See the Typical
Operating Characteristics for the RSSI Relative Error graph.
Note 8:
Transmit sideband suppression is typically better than 35dB. Operation outside this frequency range is possible but has
not been characterized.
Note 9:
Output IM3 level is typically better than -29dBc.
Note 10:
The output power can be increased by raising GC above 2V. Refer to the Transmitter Output Power vs. GC Voltage and
Frequency graph in the Typical Operating Characteristics.
Note 11:
Using two tones at 400kHz and 500kHz, 250mVp-p differential per tone at I, I, Q, Q.
MAX2510
Low-Voltage IF Transceiver with
Limiter/RSSI and Quadrature Modulator

SHUTDOWN SUPPLY CURRENT
vs. SUPPLY VOLTAGE
MAX2510toc04
SUPPLY VOLTAGE (V)
SHUTDOWN SUPPLY CURRENT (µA)
TA = +85°C
TA = -40°C
TA = +25°C
DOWNCONVERTER MIXER CONVERSION
GAIN vs. SUPPLY VOLTAGE
AND TEMPERATURE
MAX2510toc05
VOLTAGE (V)
GAIN (dB)
TA = +85°C
TA = +25°C
TA = -40°C4005002003001006007008009001000
DOWNCONVERTER MIXER CONVERSION
GAIN vs. RXIN FREQUENCY

MAX2510toc06
RF FREQUENCY (MHz)
GAIN (dB)
MISMATCH LOSS
COMPENSATED
RECEIVE MIXER INPUT 1dB
COMPRESSION POINT vs. SUPPLY VOLTAGE
MAX2510toc07
SUPPLY VOLTAGE (V)
INPUT 1dB COMPRESSION (dBm)
TA = +85°C
TA = +25°C
TA = -40°C
RXIN INPUT IMPEDANCE
vs. FREQUENCY
MAX2510toc08
FREQENCY (MHz)
REAL IMPEDANCE (
IMAGINARY
SINGLE-ENDED
REAL
____________________________Typical Operating Characteristics (continued)

(MAX2510 EVkit; VCC= +3.0V; 0.01µF across CZ and CZ; MIXOUT tied to VREF through 165Ωresistor; TXOUT and TXOUTloaded
with 100Ωdifferential; LO terminated with 50Ω; LOAC grounded; GC open; LIMOUT, LIMOUTopen; 330pF at RSSI pin; 0.1µF con-
nected from VREF pin to GND; PRXIN, RXIN= -30dBm differentially driven (input matched); fRXIN,RXIN= 240MHz; bias voltage at I, I,
Q, Q= 1.4V; VI,Q= 500mVp-p; f I, Q= 200kHz; fLO, LO= 230MHz; PLO= -13dBm; TA= +25°C; unless otherwise noted.)
MAX2510
Low-Voltage IF Transceiver with
Limiter/RSSI and Quadrature Modulator

RSSI RELATIVE ERROR vs. LIMIN INPUT
POWER AND TEMPERATURE
MAX2510toc10
LIMITER INPUT POWER (dBm, 50Ω)
RSSI ERROR (dB)
TA = +25°C
TA = -40°C
TA = +25°C
TA = +85°C
RSSI OUTPUT VOLTAGE vs. LIMIN INPUT
POWER AND TEMPERATURE
MAX2510toc10a
LIMITER INPUT POWER (dBm, 50Ω)
RSSI VOLTAGE (V)
VOUT = -40°C
VOUT = +85°C
VOUT = +25°C
RSSI OUTPUT VOLTAGE
vs. RXIN INPUT POWER
MAX2510toc11
RXIN INPUT POWER (dBm)
RSSI VOLTAGE (V)
TRANSMITTER OUTPUT POWER
vs. GC VOLTAGE AND FREQUENCY
MAX2510toc12
GC VOLTAGE (V)
OUTPUT POWER (dBm)
230MHz
200MHz
500MHz
TRANSMITTER OUTPUT POWER
vs. FREQUENCY
MAX2510toc12a
FREQUENCY (MHz)
OUTPUT POWER (dBm)
GC = 2.0V
TRANSMITTER IM3 LEVELS
vs. GC VOLTAGE
MAX2510toc13
GC VOLTAGE (V)
IM3 LEVELS (dBc)
TRANSMITTER OUTPUT 1dB COMPRESSION
POINT vs. GC VOLTAGE
MAX2510toc15
GC VOLTAGE (V)
OUTPUT 1dB COMPRESSION (dBm)
TA = +85°C
TA = -40°C
TA = +25°C
____________________________Typical Operating Characteristics (continued)

(MAX2510 EVkit; VCC= +3.0V; 0.01µF across CZ and CZ; MIXOUT tied to VREF through 165Ωresistor; TXOUT and TXOUTloaded
with 100Ωdifferential; LO terminated with 50Ω; LOAC grounded; GC open; LIMOUT, LIMOUTopen; 330pF at RSSI pin; 0.1µF con-
nected from VREF pin to GND; PRXIN, RXIN= -30dBm differentially driven (input matched); fRXIN,RXIN= 240MHz; bias voltage at I, I,
Q, Q= 1.4V; VI,Q= 500mVp-p; f I, Q= 200kHz; fLO, LO= 230MHz; PLO= -13dBm; TA= +25°C; unless otherwise noted.)
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