MAXIM MAX2851ITK

19-5121; Rev 1; 3/10
TION KIT
EVALUA BLE
IL
AVA A
5GHz, 5-Channel MIMO Receiver
The MAX2851 is a single-chip, 5-channel RF receiver IC
designed for 5GHz wireless HDMI™ applications. The
IC includes all circuitry required to implement the complete 5-channel MIMO RF receiver function and crystal
oscillator, providing a fully integrated receive path, VCO,
frequency synthesis, and baseband/control interface. It
includes a fast-settling sigma-delta RF fractional synthesizer with 76Hz frequency programming step size. The
IC also integrates on-chip I/Q amplitude and phase-error
calibration circuits. The receiver includes both an inchannel RSSI and also an RF RSSI.
On-chip monolithic filters are included for receiver I/Q
baseband signal channel selection, for supporting both
20MHz and 40MHz RF channels. The baseband filtering and Rx signal paths are optimized to meet stringent
WHDI requirements. The downconverter local oscillator
is coherent among all the receiver channels.
The reverse-link control channel uses an on-chip 5GHz
OFDM transmitter. It shares the RF synthesizer and LO
generation circuit with the MIMO receivers. Dynamic
on/off control of the external PA is implemented with
programmable precision voltage. An analog mux routes
external PA power-detect voltage to the RSSI pin.
The MIMO receiver chip is housed in a small 68-pin
TQFN leadless plastic package with exposed paddle.
Applications
5GHz Wireless HDMI (WHDI™)
5GHz FDD Backhaul and WiMAX™
5GHz MIMO Receiver Up to Five Spatial Streams
5GHz Beam Steering Receiver
Features
S 5GHz, 5x MIMO Downlink Receivers, Single-Uplink
IEEE 802.11a Transmitter
S 4900MHz to 5900MHz Frequency Range
S Coherent LO Among Receivers
S 4.5dB Rx Noise Figure
S 70dB Rx Gain Control Range with 2dB Step Size,
Digitally Controlled
S 60dB Dynamic Range Receiver RSSI
S RF Wideband Receiver RSSI
S Programmable 20MHz/40MHz Rx I/Q Lowpass
Channel Filters
S -5dBm Transmit Power (54Mbps OFDM)
S 31dB Tx Gain Control Range with 0.5dB Step Size,
Digitally Controlled
S Tx/Rx I/Q Error and LO Leakage Detection and
Adjustment
S Programmable 20MHz/40MHz Tx I/Q Lowpass
Anti-Aliasing Filter
S Analog Mux for PA Power Detect
S PA On/Off Control
S Sigma-Delta Fractional-N PLL with 76Hz
Resolution
S Monolithic Low-Noise VCO with -35dBc Integrated
Phase Noise
S 4-Wire SPIK Digital Interface
S I/Q Analog Baseband Interface
S Digital Tx/Rx Mode Control
S On-Chip Digital Temperature Sensor Readout
S Complete Baseband Interface
S Digital Tx/Rx Mode Control
S +2.7V to +3.6V Supply Voltage
S Small 68-Pin TQFN Package (10mm x 10mm)
Ordering Information
PART
TEMP RANGE
PIN-PACKAGE
MAX2851ITK+
-25NC to +85NC
68 TQFN-EP*
+Denotes a lead(Pb)-free/RoHS-compliant package.
*EP = Exposed paddle.
HDMI is a trademark of HDMI Licensing, LLC.
WHDI is a trademark of WHDI Special Interest Group.
WiMAX is a trademark of the WiMAX Forum.
Typical Operating Circuit appears at end of data sheet.
SPI is a trademark of Motorola, Inc.
________________________________________________________________ Maxim Integrated Products 1
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.
MAX2851
General Description
MAX2851
5GHz, 5-Channel MIMO Receiver
ABSOLUTE MAXIMUM RATINGS
VCC_ Pins to GND.................................................-0.3V to +3.9V
RF Inputs Max Current: RXRF1+, RXRF1-, RXRF2+,
RXRF2-, RXRF3+, RXRF3-, RXRF4+, RXRF4-,
RXRF5+, RXRF5- to GND.................................. -1mA to +1mA
RF Outputs: TXRF+, TXRF- to GND......................-0.3V to +3.9V
Analog Inputs: TXBBI+, TXBBI-, TXBBQ+, TXBBQ-, PA_DET,
XTAL, XTAL_CAP to GND...................................-0.3V to +3.9V
Analog Outputs: RXBBI1+, RXBBI1-, RXBBQ1+, RXBBQ1-,
RXBBI2+, RXBBI2-, RXBBQ2+, RXBBQ2-, RXBBI3+, RXBBI3-,
RXBBQ3+, RXBBQ3-, RXBBI4+, RXBBI4-, RXBBQ4+,
RXBBQ4-, RXBBI5+, RXBBI5-, RXBBQ5+, RXBBQ5-, RSSI,
CLKOUT2, BYP_VCO, CPOUT+, CPOUT-, PA_BIAS to
GND....................................................................-0.3V to +3.9V
Digital Inputs: ENABLE, CS, SCLK,
DIN to GND.........................................................-0.3V to +3.9V
Digital Outputs: DOUT, CLKOUT to GND.............-0.3V to +3.9V
Short-Circuit Duration
Analog Outputs.................................................................. 10s
Digital Outputs.................................................................... 10s
RF Input Power............................................................... +10dBm
RF Output Differential Load VSWR......................................... 6:1
Continuous Power Dissipation (TA = +85NC)
68-Pin TQFN (derate 29.4mW/NC above +70NC) .......2352mW
Operating Temperature Range........................... -25NC to +85NC
Junction Temperature......................................................+150NC
Storage Temperature Range............................. -65NC to +160NC
Lead Temperature (soldering, 10s).................................+300NC
Soldering Temperature (reflow).......................................+260NC
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.
CAUTION! ESD SENSITIVE DEVICE
DC ELECTRICAL CHARACTERISTICS
(Operating conditions unless otherwise specified: VCC = 2.7V to 3.6V, TA = -25NC to +85NC, ENABLE set according to operating
mode, CS = high, SCLK = DIN = low, transmitter in maximum gain. Power matching and termination for the differential RF output
pins using the Typical Operating Circuit; 100mVRMS differential I and Q signals applied to I and Q baseband inputs of transmitters
in transmit mode. Typical values measured at VCC = 2.85V, TA = +25NC, LO freq = 5.35GHz. Channel bandwidth is set to 40MHz.
PA control pins open circuit, VCC_PA_BIAS is disconnected.) (Note 1)
PARAMETER
CONDITIONS
Supply Voltage
Clockout only mode
with load = 10pF at
CLKOUT pin
10
XTAL oscillator, CLKOUT2 is off
3.7
XTAL oscillator, CLKOUT2 is on
4.6
TCXO input, CLKOUT2 is off
4.8
TCXO input, CLKOUT2 is on
6.1
V
FA
7.0
183
212
144
184
Five receivers are on
367
458
One receiver is on
248
One receiver is on
Five receivers are on
435
Transmit calibration mode
mA
517
256
Rx I/Q Output Common-Mode
Voltage
0.88
Tx Baseband Input CommonMode Voltage Operating Range
0.5
Source current
UNITS
60
Transmit mode
Receive calibration
mode
MAX
3.6
TA = +25NC
Standby mode
Receive mode
Tx Baseband Input Bias Current
TYP
2.7
Shutdown mode
Supply Current
MIN
1.1
10
2 _______________________________________________________________________________________
1.34
V
1.1
V
20
FA
5GHz, 5-Channel MIMO Receiver
(Operating conditions unless otherwise specified: VCC = 2.7V to 3.6V, TA = -25NC to +85NC, ENABLE set according to operating
mode, CS = high, SCLK = DIN = low, transmitter in maximum gain. Power matching and termination for the differential RF output
pins using the Typical Operating Circuit; 100mVRMS differential I and Q signals applied to I and Q baseband inputs of transmitters
in transmit mode. Typical values measured at VCC = 2.85V, TA = +25NC, LO freq = 5.35GHz. Channel bandwidth is set to 40MHz.
PA control pins open circuit, VCC_PA_BIAS is disconnected.) (Note 1)
PARAMETER
CONDITIONS
MIN
TYP
MAX
UNITS
LOGIC INPUTS: ENABLE, SCLK, DIN, CS
VCC 0.4
Digital Input-Voltage High, VIH
Digital Input-Voltage Low, VIL
V
0.3
V
Digital Input-Current High, IIH
(Note 2)
-1
+1
FA
Digital Input-Current Low, IIL­
LOGIC OUTPUTS: DOUT, CLKOUT
-1
+1
FA
VCC 0.4
Digital Output-Voltage High, VOH Sourcing 1mA
Digital Output-Voltage Low, VOL
Sinking 1mA
Digital Output Voltage in
Shutdown Mode
Sinking 1mA
V
0.4
VOL
V
V
AC ELECTRICAL CHARACTERISTICS—Rx MODE
(Operating conditions unless otherwise specified: VCC = 2.7V to 3.6V, TA = -25NC to +85NC, RF freq = 5.351GHz, LO freq = 5.35GHz.
Reference freq = 40MHz, ENABLE = high, CS = high, SCLK = DIN = low, with power matching at RXRF_+ and RXRF_- differential
ports using the Typical Operating Circuit. Receiver I/Q output at 100mVRMS loaded with 10kI differential load resistance and 10pF
load capacitance. RSSI pin is loaded with 10kI load resistance to ground. Typical values measured at VCC = 2.85V, TA = +25NC,
channel bandwidths of 40MHz.) (Note 1)
PARAMETER
CONDITIONS
MIN
TYP
MAX
UNITS
RECEIVER SECTION: RF INPUT TO I/Q BASEBAND LOADED OUTPUT
Includes 50I to 100I RF Balun and Matching
RF Input Frequency Range
Peak-to-Peak Gain Variation
Over RF Frequency Range at
One Temperature
RF Input Return Loss
4.9
4.9GHz to 5.9GHz
All LNA settings
Maximum gain, Main address 1 D[7:0] = 11111111
Total Voltage Gain
1.8
Baseband Gain Range
RF Gain Change Settling Time
-2
Main address 1 D[7:5] = 110
-8
-16
Main address 1 D[7:5] = 001
-32
Main address 1 D[7:5] = 000
-40
Baseband Gain Step
Gain settling to within Q0.5dB of steady state, RXHP = 1
4.2
dB
28
dB
68
Main address 1 D[7:5] = 101
From maximum baseband gain (Main address 1 D[3:0]
= 1111) to minimum baseband gain (Main address 1
D[3:0] = 0000)
GHz
-6
61.8
Minimum gain, Main address 1 D[7:0] = 00000000
RF Gain Steps Relative to
Maximum Gain
5.9
30
+6.9
dB
dB
32
dB
2
dB
400
ns
_______________________________________________________________________________________ 3
MAX2851
DC ELECTRICAL CHARACTERISTICS (continued)
MAX2851
5GHz, 5-Channel MIMO Receiver
AC ELECTRICAL CHARACTERISTICS—Rx MODE (continued)
(Operating conditions unless otherwise specified: VCC = 2.7V to 3.6V, TA = -25NC to +85NC, RF freq = 5.351GHz, LO freq = 5.35GHz.
Reference freq = 40MHz, ENABLE = high, CS = high, SCLK = DIN = low, with power matching at RXRF_+ and RXRF_- differential
ports using the Typical Operating Circuit. Receiver I/Q output at 100mVRMS loaded with 10kI differential load resistance and 10pF
load capacitance. RSSI pin is loaded with 10kI load resistance to ground. Typical values measured at VCC = 2.85V, TA = +25NC,
channel bandwidths of 40MHz.) (Note 1)
PARAMETER
CONDITIONS
Baseband Gain Change Settling
Time
Gain settling to within Q0.5dB of steady state, RXHP = 1
200
Maximum RF gain (Main
address 1 D[7:5] = 111)
4.5
Maximum RF gain - 16dB
(Main address 1 D[7:5] =
101)
15
Balun input referred,
integrated from 10kHz
to 19MHz at I/Q baseband output for 40MHz
RF bandwidth
Maximum RF gain (Main
address 1 D[7:5] = 111)
4.5
Maximum RF gain - 16dB
(Main address 1 D[7:5] =
101)
15
-65dBm wanted signal, RF
gain = max (Main address 1
D[7:0] = 11101001)
-13
-49dBm wanted signal, RF
gain = max - 16dB (Main
address 1 D[7:0] = 10101001)
-5
-45dBm wanted signal, RF
gain = max - 32dB (Main
address 1 D[7:0] = 00111111)
11
-65dBm wanted signal, RF
gain = max (Main address 1
D[7:0] = 11101001)
-13
-49dBm wanted signal, RF
gain = max - 16dB (Main
address 1 D[7:0] = 10101001)
-5
-45dBm wanted signal, RF
gain = max - 32dB (Main
address 1 D[7:0] = 00101001)
11
20MHz RF channel,
two-tone jammers at
+25MHz and +48MHz
frequency offset with
-39dBm/tone
Out-of-Band Input IP3
40MHz RF channel,
two-tone jammers at
+50MHz and +96MHz
frequency offset with
-39dBm/tone
Input 1dB Gain Compression
TYP
Balun input referred,
integrated from 10kHz
to 9.5MHz at I/Q baseband output for 20MHz
RF bandwidth
DSB Noise Figure
1dB Gain Desensitization by
Alternate Channel Blocker
MIN
MAX
UNITS
ns
dB
dBm
Blocker at Q40MHz offset frequency for 20MHz RF
channel
-24
Blocker at Q80MHz offset frequency for 40MHz RF
channel
-24
Max RF gain (Main address 1 D[7:5] = 111)
-34
Max RF gain - 8dB (Main address 1 D[7:5] = 110)
-25
Max RF gain - 16dB (Main address 1 D[7:5] = 101)
-18
Max RF gain - 32dB (Main address 1 D[7:5] = 001)
-1
dBm
4 _______________________________________________________________________________________
dBm
5GHz, 5-Channel MIMO Receiver
(Operating conditions unless otherwise specified: VCC = 2.7V to 3.6V, TA = -25NC to +85NC, RF freq = 5.351GHz, LO freq = 5.35GHz.
Reference freq = 40MHz, ENABLE = high, CS = high, SCLK = DIN = low, with power matching at RXRF_+ and RXRF_- differential
ports using the Typical Operating Circuit. Receiver I/Q output at 100mVRMS loaded with 10kI differential load resistance and 10pF
load capacitance. RSSI pin is loaded with 10kI load resistance to ground. Typical values measured at VCC = 2.85V, TA = +25NC,
channel bandwidths of 40MHz.) (Note 1)
PARAMETER
Output 1dB Gain Compression
Baseband -3dB Lowpass Corner
Frequency
Baseband Filter Stopband
Rejection
Baseband -3dB Highpass
Corner Frequency
CONDITIONS
MIN
TYP
Over passband frequency range, at any gain setting,
1dB compression point
0.63
Main address 0 D1 = 0
9.5
Main address 0 D1 = 1
19
Rejection at 30MHz offset frequency for 20MHz channel
74
Rejection at 60MHz offset frequency for 40MHz channel
69
Main address 5 D1 = 1
600
Main address 5 D1 = 0, Main address 4 D3 = 1
10
Main address 5 D1 = 0, Main address 4 D3 = 0 (Note 3)
0.1
50Fs after enabling receive mode and togging RXHP
Steady-State I/Q Output DC Error from 1 to 0, averaged over many measurements if I/Q
with AC-Coupling
noise voltage exceeds 1mVRMS, at any given gain setting, no input signal, 1-sigma value
MAX
UNITS
VP-P
MHz
dB
kHz
2
mV
I/Q Gain Imbalance
1MHz baseband output, 1-sigma value
0.1
dB
I/Q Phase Imbalance
1MHz baseband output, 1-sigma value
0.2
deg
Sideband Suppression
1MHz baseband output
40
dB
LO frequency
-75
Receiver Spurious Signal
Emissions
2O LO frequency
-62
3O LO frequency
-75
4O LO frequency
-54
RF RSSI Output Voltage
-25dBm input power
1.6
Baseband RSSI Slope
18
26.5
dBm/
MHz
V
37
mV/dB
Baseband RSSI Maximum
Output Voltage
2.3
V
Baseband RSSI Minimum Output
Voltage
0.5
V
RF Loopback Conversion Gain
Tx VGA gain at max (Main address 9 D[9:4] = 111111), Rx
VGA gain at max - 24dB (Main address 1 D[3:0] = 0101)
-17.1
-10
-1.7
dB
_______________________________________________________________________________________ 5
MAX2851
AC ELECTRICAL CHARACTERISTICS—Rx MODE (continued)
MAX2851
5GHz, 5-Channel MIMO Receiver
AC ELECTRICAL CHARACTERISTICS—Tx MODE
(Operating conditions unless otherwise specified: VCC = 2.7V to 3.6V, TA = -25NC to +85NC, RF freq = 5.351GHz, LO freq = 5.35GHz.
Reference freq = 40MHz, ENABLE = high, CS = high, SCLK = DIN = low, with power matching at TXRF+ and TXRF- differential ports
using the Typical Operating Circuit; 100mVRMS sine and cosine signal applied to I/Q baseband inputs of transmitter (differential
DC-coupled). Typical values measured at VCC = 2.85V, TA = +25NC, channel bandwidths of 40MHz.) (Note 1)
PARAMETER
CONDITIONS
MIN
TYP
MAX
UNITS
5.9
GHz
1.55
dB
TRANSMIT SECTION: Tx BASEBAND I/Q INPUTS TO RF OUTPUTS
Includes Matching and Balun Loss
RF Output Frequency Range
Peak-to-Peak Gain Variation
Over RF Band
4.9
At one temperature
0.7
20MHz OFDM signal conforming to spectral emission
mask and -34dB EVM
-3
40MHz OFDM signal confirming to spectral emission
mask and -34dB EVM
-3
Output 1dB Gain Compression
Relative to typical maximum output power at 9.5MHz
input frequency
11
dBc
Input 1dB Gain Compression
At 19MHz input frequency, over input common-mode
voltage between 0.5V and 1.1V
380
mVRMS
Maximum Output Power
Gain Control Range
dBm
24
31.5
34
dB
Gain Control Step
0.5
dB
RF Output Return Loss
-3
dB
Unwanted Sideband
Over RF channel, RF frequency, baseband frequency,
and gain settings (Note 4)
-40
dBc
Carrier Leakage
Over RF channel, RF frequency, and gain settings
(Note 4)
-29
Tx I/Q Input Impedance (R || C)
Baseband Filter Stopband
Rejection
Tx Calibration Ftone Level
Tx Calibration RF Gain Step
Relative to Maximum Gain
Tx Calibration Baseband Gain
Step Relative to Maximum Gain
-15
dBc
Minimum differential resistance
60
kI
Maximum differential capacitance
2
pF
At 30MHz frequency offset for 20MHz RF channel
86
At 60MHz frequency offset for 40MHz RF channel
67
At Tx gain code (Main address 9 D[9:4]) = 100010 and
-15dBc carrier leakage (Local address 27 D[2:0] = 110
and Main address 1 D[3:0] = 0000)
-24
Local address 27 D[1:0] = 01
-14
Local address 27 D[1:0] = 00
-28
Local address 27 D2 = 0
-5
6 _______________________________________________________________________________________
dB
dBVRMS
dB
dB
5GHz, 5-Channel MIMO Receiver
(Operating conditions unless otherwise specified: VCC = 2.7V to 3.6V, TA = -25NC to +85NC, freq = 5.35GHz. Reference freq = 40MHz,
ENABLE = high, CS = high, SCLK = DIN = low. Typical values measured at VCC = 2.85V, TA = +25NC, LO freq = 5.35GHz.) (Note 1)
PARAMETER
CONDITIONS
MIN
TYP
MAX
UNITS
5.9
GHz
FREQUENCY SYNTHESIZER
RF Channel Center Frequency
4.9
Channel Center Frequency
Programming Step
Closed-Loop Integrated Phase
Noise
76.294
Hz
Loop BW = 200kHz, integrate phase noise from 1kHz
to 10MHz
-35
dBc
0.8
mA
fOFFSET = 0 to 19MHz
-42
fOFFSET = 40MHz
-66
Charge-Pump Output Current
Spur Level
Reference Frequency
Reference Frequency Input
Levels
40
AC-coupled to XTAL pin
Base-to-ground capacitance
Crystal Capacitance Tuning Step
CLKOUT Signal Level
10pF load capacitance
CLKOUT2 Signal Level
4pF load capacitance
MHz
800
Maximum Crystal Motional
Resistance
Crystal Capacitance Tuning
Range
dBc
VCC 0.8
mVP-P
50
I
30
pF
140
fF
VCC 0.1
VP-P
0.3
VP-P
AC ELECTRICAL CHARACTERISTICS—MISCELLANEOUS BLOCKS
(Operating conditions unless otherwise specified: VCC = 2.7V to 3.6V, TA = -25NC to +85NC. Reference freq = 40MHz, ENABLE =
high, CS = high, SCLK = DIN = low. Typical values measured at VCC = 2.85V, TA = +25NC.) (Note 1)
PARAMETER
CONDITIONS
MIN
TYP
MAX
UNITS
15
32
mV
PA POWER-DETECTOR MUX
Output Voltage Drop
VIN = 2.0V, load resistance = 10kI to ground
PA ON/OFF CONTROL
VCC_PA_BIAS Input Voltage Range
3.1
3.6
V
VCC_PA_BIAS Supply Current
With 10mA load at PA_BIAS
10.5
Output High Level
10mA load current, Main address 11 D[7:5] = 011
2.8
V
Output Low Level
1mA load current, Main address 11 D[7:5] = 011
25
mV
0.3
Fs
Turn-On Time
Measured from CS rising edge
ON-CHIP TEMPERATURE SENSOR
Digital Output Code
Readout at DOUT pin
through Main address 3
D[4:0]
TA = +25NC
13
TA = +85NC
22
TA = -25NC
2
mA
_______________________________________________________________________________________ 7
MAX2851
AC ELECTRICAL CHARACTERISTICS—FREQUENCY SYNTHESIS
MAX2851
5GHz, 5-Channel MIMO Receiver
AC ELECTRICAL CHARACTERISTICS—TIMING
(Operating conditions unless otherwise specified: VCC = 2.7V to 3.6V, TA = -25NC to +85NC, freq = 5.35GHz. Reference freq =
40MHz, ENABLE = high, CS = high, SCLK = DIN = low. Typical values measured at VCC = 2.85V, TA = +25NC, LO freq = 5.35GHz.)
(Note 1)
PARAMETER
SYMBOL
CONDITIONS
MIN
TYP
MAX
UNITS
SYSTEM TIMING
Shutdown Time
2
Fs
Maximum Channel Switching
Time
Loop bandwidth = 200kHz, settling to
within Q1kHz from steady state
2
ms
Maximum Channel Switching
Time with Preselected VCO
Sub-Band
Loop bandwidth = 200kHz, settling to
within Q1kHz from steady state
56
Fs
Rx/Tx Turnaround Time
Measured
from CS rising edge
Rx to Tx mode, Tx gain
settles to within 0.2dB of
steady state
Tx to Rx mode with RXHP =
1, Rx gain settles to within
0.5dB of steady state
Tx Turn-On Time (from Standby
Mode)
Measured from CS rising edge, Tx gain
settles to within 0.2dB of steady state
Tx Turn-Off Time (to Standby
Mode)
From CS rising edge
Rx Turn-On Time (from Standby
Mode)
Measured from CS rising edge, Rx gain
settles to within 0.5dB of steady state
Rx Turn-Off Time (to Standby
Mode)
From CS rising edge
2
Fs
2
2
Fs
0.1
Fs
2
Fs
0.1
Fs
8 _______________________________________________________________________________________
5GHz, 5-Channel MIMO Receiver
(Operating conditions unless otherwise specified: VCC = 2.7V to 3.6V, TA = -25NC to +85NC, freq = 5.35GHz. Reference freq =
40MHz, ENABLE = high, CS = high, SCLK = DIN = low. Typical values measured at VCC = 2.85V, TA = +25NC, LO freq = 5.35GHz.)
(Note 1)
PARAMETER
SYMBOL
CONDITIONS
MIN
TYP
MAX
UNITS
4-WIRE SERIAL INTERFACE TIMING (Figure 1)
SCLK Rising Edge to CS Falling
Edge Wait Time
tCSO
6
ns
Falling Edge of CS to Rising
Edge of First SCLK Time
tCSS
6
ns
DIN to SCLK Setup Time
tDS
6
ns
DIN to SCLK Hold Time
tDH
6
ns
SCLK Pulse-Width High
tCH
6
ns
SCLK Pulse-Width Low
tCL
6
ns
Last Rising Edge of SCLK to
Rising Edge of CS or Clock to
Load Enable Setup Time
tCSH
6
ns
CS High Pulse Width
tCSW
50
ns
Time Between Rising Edge of
CS and the Next Rising Edge of
SCLK
tCS1
6
ns
SCLK Frequency
fCLK
40
MHz
Rise Time
tR
2.5
ns
Fall Time
tF
2.5
ns
Note 1: The MAX2851 is production tested at TA = +25NC, minimum/maximum limits at TA = +25NC are guaranteed by test unless
otherwise specified. Minimum/maximum limits at TA = -25NC and +85NC are guaranteed by design and characterization. There
is no power-on register settings self-reset; recommended register settings must be loaded after VCC is applied.
Note 2: Minimum/maximum limit is guaranteed by design and characterization.
Note 3: It is currently not recommended and not tested. For test coverage support, contact manufacturer.
Note 4: For optimal Rx and Tx quadrature accuracy over temperature, the user can utilize the Rx calibration and Tx calibration circuit
to assist quadrature calibration.
_______________________________________________________________________________________ 9
MAX2851
AC ELECTRICAL CHARACTERISTICS—TIMING (continued)
Typical Operating Characteristics
(VCC = 2.8V, TA = +25NC, fLO = 5.35GHz, fREF = 40MHz, CS = high, SCLK = DIN = low, RF BW = 20MHz, Tx output at 50ω unbalanced
output of balun, using the MAX2851 Evaluation Kit, unless otherwise noted.)
RECEIVER
146
TA = +25°C
144
142
370
TA = +25°C
365
TA = -40°C
TA = -40°C
25
MAX - 16dB
15
MAX - 8dB
MAX
5
0
2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5 3.6
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15
VCC (V)
VCC (V)
Rx VGA GAIN SETTINGS
Rx3 MAXIMUM GAIN vs. FREQUENCY
Rx3 MAXIMUM GAIN
vs. TEMPERATURE AND FREQUENCY
Rx2 MAXIMUM GAIN WITH FIXED
LNA SUB-BAND (MAIN ADDRESS 2 D[6:5])
LNA = MAX - 16dB
50
LNA = MAX - 24dB
45
40
LNA = MAX - 32dB
69
68
TA = +85°C
67
65
63
61
66
59
25
65
57
20
64
LNA = MAX - 40dB
30
BAND 2
BAND 1
69
TA = +25°C
70
67
35
BAND 0
71
71
GAIN (dB)
55
MAX2851 toc06
72
60
73
GAIN (dB)
LNA = MAX - 8dB
TA = -20°C
73
75
MAX2851 toc05
65
74
MAX2851 toc04
LNA = MAX GAIN
70
BAND 3
55
4.9 5.0 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9
4.9 5.0 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9
4.9 5.0 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9
FREQUENCY (GHz)
FREQUENCY (GHz)
FREQUENCY (GHz)
LNA = MAX
70
LNA = MAX - 8dB
60
69
LNA = MAX - 16dB
GAIN (dB)
50
68
67
Rx5
66
Rx1
40
30
20
10
LNA = MAX - 32dB
0
64
4.9 5.0 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9
FREQUENCY (GHz)
LNA = MAX - 24dB
LNA = MAX - 40dB
2
10
FBB = 1MHz TA = +25°C
1.2
OUTPUT V1dB (VRMS)
Rx4
1.4
MAX2851 toc08
Rx2
MAX2851 toc07
Rx3
Rx OUTPUT V1dB vs. GAIN SETTING
Rx GAIN vs. BASEBAND VGA GAIN
80
MAX2851 toc09
Rx MAXIMUM GAIN vs. FREQUENCY
71
65
MAX - 24dB
20
2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5 3.6
75
70
MAX - 32dB
30
10
355
138
MAX - 40dB
35
360
140
GAIN (dB)
TA = +85°C
375
40
NOISE FIGURE (dB)
380
ICC (mA)
ICC (mA)
385
TA = +85°C
45
MAX2851 toc02
150
148
390
MAX2851 toc01
152
Rx NOISE FIGURE vs. VGA GAIN
SETTINGS (BALUN INPUT REFERRED)
Rx MODE 5-CHANNEL SUPPLY CURRENT
MAX2851 toc03
Rx MODE SINGLE-CHANNEL
SUPPLY CURRENT
GAIN (dB)
MAX2851
5GHz, 5-Channel MIMO Receiver
TA = +85°C
1.0
0.8
FBB = 19MHz TA = -20°C TA = -20°C
0.6
0.4
TA = +25°C
0.2
TA = +85°C
0
-10
0
4
6
8
12
BASEBAND VGA GAIN CODE
14
16
0
2
4
6
8
10
12
BASEBAND VGA GAIN CODE
10 �������������������������������������������������������������������������������������
14
16
5GHz, 5-Channel MIMO Receiver
14
10
12
LNA = MAX = -40dB
LNA = MAX = -8dB
-30
LNA = MAX = -16dB
-35
LNA = MAX = -24dB
-50
LNA = MAX = -32dB
-30
-10
10
-25
-20
-15
-10
-5
Rx BASEBAND OUTPUT LEVEL (dBVRMS)
Rx4 EMISSION SPECTRUM AT LNA INPUT
(LNA MAX GAIN)
Rx INPUT IMPEDANCE
AT MAX LNA GAIN
60
MAX2851 toc13
-10
-20
50
Rx5
REAL PART (I)
-40
-50
2 LO
-60
4 LO
-70
-80
-90
-100
0Hz
2.65GHz/div
Rx1
Rx1
-2
30
Rx2, 3, 4
20
Rx5
0
-4
TA = -40°C
-6
TA = +25°C
-8
-10
-12
-10
0
-20
-10
-30
-18
-20
-40
4.9 5.0 5.1 5.2 5.3 5.4 5.5 5.6 5.7 5.8 5.9
-20
-14
-16
TA = +85°C
4.8
5.0
5.2
5.4
5.6
5.8
RF FREQUENCY
RF FREQUENCY (GHz)
FREQUENCY (GHz)
Rx INPUT RETURN LOSS
Rx RF RSSI OUTPUT
Rx RF RSSI ATTACK TIME
(+40dB SIGNAL STEP)
-6
-8
-10
-12
-14
Rx3
Rx5
-16
MAX2851 toc17
Rx1, 2, 4
-4
LOW GAIN, TA = +85°C
2.0
1.5
LOW GAIN,
TA = +25°C
-18
D: 280ns D: 1.32V
@: 192ns @: 1.84V
1.0V/div
LOW GAIN,
TA = -20°C
0V
HIGH GAIN,
TA = +85°C
1.0
0.5
6.0
MAX2851 toc18
2.5
RF RSSI OUTPUT VOLTAGE (V)
-2
MAX2851 toc16
0
10
0
40
10
2.65GHz
5
Rx3 INPUT RETURN LOSS
MAX2851 toc14
10
Rx2, 3, 4
0
INPUT POWER (dBm)
30
20
-40 -35 -30 -25 -20 -15 -10 -5
0
IMAGINARY PART (I)
40
-30
40MHz OFFSET
0
-30
INPUT POWER (dBm)
0
6
2
S11 (dB)
-70
8
4
0
-90
OUTPUT POWER (dBm)
VGA GAIN =
3/5/7/9/11/13/15
2
-40
S11 (dB)
6
4
20MHz OFFSET
10
8
Rx EVM (%)
Rx EVM (%)
Rx EVM (dB)
VGA GAIN = 0
-25
MAX2851 toc12
-20
VGA GAIN = 2/4/6/8/10/12/14
MAX2851 toc15
LNA = MAX
MAX2851 toc11
12
MAX2851 toc10
-15
GAIN CONTROL
1.0V/div
HIGH GAIN,
TA = +25°C
0V
VRSSI
HIGH GAIN, TA = -20°C
0
-20
4.8
5.0
5.2
5.4
5.6
FREQUENCY (GHz)
5.8
6.0
-50 -45 -40 -35 -30 -25 -20 -15 -10 -5
0
400ns/div
RF INPUT POWER (dBm)
______________________________________________________________________________________ 11
MAX2851
Typical Operating Characteristics (continued)
(VCC = 2.8V, TA = +25NC, fLO = 5.35GHz, fREF = 40MHz, CS = high, SCLK = DIN = low, RF BW = 20MHz, Tx output at 50ω unbalanced
output of balun, using the MAX2851 Evaluation Kit, unless otherwise noted.)
Rx EVM vs. OFDM JAMMER POWER AT
Rx EVM vs. Rx BASEBAND
Rx EVM vs. INPUT POWER
20MHz AND 40MHz OFFSET FREQUENCY
OUTPUT LEVEL
(CHANNEL BANDWIDTH = 20MHz)
WITH WANTED SIGNAL AT -66dBm
Typical Operating Characteristics (continued)
(VCC = 2.8V, TA = +25NC, fLO = 5.35GHz, fREF = 40MHz, CS = high, SCLK = DIN = low, RF BW = 20MHz, Tx output at 50ω unbalanced
output of balun, using the MAX2851 Evaluation Kit, unless otherwise noted.)
Rx RF RSSI DELAY TIME
(-40dB SIGNAL STEP)
GAIN CONTROL
0V
VRSSI
1.0V/div
0V
MAX2851 toc21
LNA = MAX
2.5
MAX2851 toc20
3.0
BASEBAND RSSI OUTPUT VOLTAGE (V)
1.0V/div
Rx BASEBAND RSSI
+40dB STEP RESPONSE
BASEBAND RSSI VOLTAGE
vs. INPUT POWER
MAX2851 toc19
D: 216ns D: 1.30V
@: 128ns @: 460mV
LNA = MAX - 40dB
LNA = MAX - 8dB
2.0
D: 460ns D: 1.50V
@: 440ns @: 2.30V
2.7V
0V
2.4V
1.5
LNA GAIN CONTROL
0.8V
LNA =
MAX - 24dB
1.0
RSSI OUTPUT
LNA = MAX - 32dB
0.5
LNA = MAX - 16dB
0
400ns/div
-100
-80
-60
-40
-20
0
1µs/div
20
RF INPUT POWER (dBm)
Rx LPF 20MHz CHANNEL BANDWIDTH
RESPONSE
-35
D: 1.18µs D: 1.62V
@: 1.16µs @: 480mV
LNA GAIN CONTROL
0.6V
RSSI OUTPUT
-135
1µs/div
-35
RESPONSE (dB)
RESPONSE (dB)
2.7V
0V
2.0V
Rx LPF 40MHz CHANNEL BANDWIDTH
RESPONSE
MAX2851 toc24
MAX2851 toc22
MAX2851 toc23
Rx BASEBAND RSSI
-32dB STEP RESPONSE
-135
10k
100M
10k
BASEBAND FREQUENCY (Hz)
MAX2851 toc25
100
Rx DC OFFSET SETTLING RESPONSE
(-30dB Rx VGA GAIN STEP)
MAX2851 toc26
100
100M
FREQUENCY (Hz)
Rx LPF 40MHz CHANNEL
BANDWIDTH GROUP DELAY
Rx LPF 20MHz CHANNEL
BANDWIDTH GROUP DELAY
MAX2851 toc27
GAIN-CONTROL
TOGGLE
0V
Rx BASEBAND
I/Q OUTPUT
50mV/div
GROUP DELAY (ns)
GROUP DELAY (ns)
MAX2851
5GHz, 5-Channel MIMO Receiver
0
0
10k
100M
10k
FREQUENCY (Hz)
100M
200ns/div
FREQUENCY (Hz)
12 �������������������������������������������������������������������������������������
CH1 PEAK TO
PEAK: 81.9mV
5GHz, 5-Channel MIMO Receiver
Rx DC OFFSET SETTLING RESPONSE
(+8dB Rx VGA GAIN STEP)
Rx DC OFFSET SETTLING RESPONSE
(+16dB Rx VGA GAIN STEP)
MAX2851 toc28
0V
MAX2851 toc29
CH1 PEAK TO
PEAK: 8.60mV
GAIN-CONTROL
TOGGLE
Rx DC OFFSET SETTLING RESPONSE
(+32dB Rx VGA GAIN STEP)
0V
10mV/div
10mV/div
Rx BASEBAND
I/Q OUTPUT
Rx BASEBAND
I/Q OUTPUT
MAX2851 toc30
GAIN-CONTROL TOGGLE
CH1 PEAK TO
PEAK: 17.3mV
GAIN-CONTROL
TOGGLE
0V
Rx BASEBAND
I/Q OUTPUT
50mV/div
200ns/div
200ns/div
200ns/div
Rx BASEBAND DC OFFSET SETTLING
RESPONSE WITH RxHP = 1
(MAX - 40dB TO MAX LNA GAIN STEP)
Rx BASEBAND DC OFFSET SETTLING
RESPONSE WITH RxHP = 0
(MAX TO MAX - 40dB LNA GAIN STEP)
Rx BASEBAND DC OFFSET SETTLING
RESPONSE WITH RxHP = 1
(MAX - 40dB TO MAX LNA GAIN STEP)
MAX2851 toc31
MAX2851 toc32
GAIN-CONTROL
TOGGLE
MAX2851 toc33
GAIN-CONTROL
TOGGLE
GAIN-CONTROL
TOGGLE
Rx BASEBAND
I/Q OUTPUT
0V
10mV/div
Rx BASEBAND
I/Q OUTPUT
0V
10mV/div
Rx BASEBAND
I/Q OUTPUT
0V
50mV/div
10µs/div
10µs/div
10µs/div
Rx BASEBAND DC OFFSET SETTLING
RESPONSE WITH RxHP = 0
(MAX - 40dB TO MAX LNA GAIN STEP)
Rx BASEBAND VGA SETTLING
RESPONSE (-30dB BASEBAND
VGA GAIN STEP)
Rx BASEBAND VGA SETTLING
RESPONSE (+4dB BASEBAND
VGA GAIN STEP)
MAX2851 toc35
MAX2851 toc34
MAX2851 toc36
GAIN-CONTROL
TOGGLE
CH1 PEAK TO
PEAK: 652mV
Rx BASEBAND
I/Q OUTPUT
0V
CH1 PEAK TO
PEAK: 69.0mV
GAIN-CONTROL
TOGGLE
50mV/div
Rx BASEBAND
I/Q OUTPUT
0V
GAIN-CONTROL
TOGGLE
0.1V/div
10µs/div
CH1 PEAK TO
PEAK: 568mV
Rx BASEBAND
OUTPUT
0V
0.1V/div
100ns/div
100ns/div
______________________________________________________________________________________ 13
MAX2851
Typical Operating Characteristics (continued)
(VCC = 2.8V, TA = +25NC, fLO = 5.35GHz, fREF = 40MHz, CS = high, SCLK = DIN = low, RF BW = 20MHz, Tx output at 50ω unbalanced
output of balun, using the MAX2851 Evaluation Kit, unless otherwise noted.)
MAX2851
5GHz, 5-Channel MIMO Receiver
Typical Operating Characteristics (continued)
(VCC = 2.8V, TA = +25NC, fLO = 5.35GHz, fREF = 40MHz, CS = high, SCLK = DIN = low, RF BW = 20MHz, Tx output at 50ω unbalanced
output of balun, using the MAX2851 Evaluation Kit, unless otherwise noted.)
Rx BASEBAND VGA SETTLING
RESPONSE (+16dB BASEBAND
VGA GAIN STEP)
Rx BASEBAND VGA SETTLING
RESPONSE (+30dB BASEBAND
VGA GAIN STEP)
MAX2851 toc37
MAX2851 toc38
CH1 PEAK TO
PEAK: 532mV
Rx BASEBAND
OUTPUT
0V
GAIN-CONTROL
TOGGLE
MAX2851 toc39
D: 130mv
@: 132mv
CH1 PEAK TO
PEAK: 800mV
CLIPPING NEGATIVE
Rx BASEBAND
OUTPUT
0V
0.1V/div
Rx LNA SETTLING RESPONSE
(MAX TO MAX - 40dB GAIN STEP)
CH1 RMS:
168mV
GAIN-CONTROL
TOGGLE
GAIN-CONTROL
TOGGLE
0V
0.1V/div
0.1V/div
Rx BASEBAND
OUTPUT
100ns/div
100ns/div
100ns/div
Rx LNA SETTLING RESPONSE
(MAX - 8dB TO MAX GAIN STEP)
Rx LNA SETTLING RESPONSE
(MAX - 16dB TO MAX GAIN STEP)
Rx LNA SETTLING RESPONSE
(MAX - 24dB TO MAX GAIN STEP)
MAX2851 toc40
MAX2851 toc41
MAX2851 toc42
CH1 RMS: 176mV
GAIN-CONTROL
TOGGLE
CH1 RMS: 174mV
GAIN-CONTROL
TOGGLE
Rx BASEBAND
OUTPUT
0V
Rx BASEBAND
OUTPUT
Rx BASEBAND
OUTPUT
0V
0V
0.1V/div
0.1V/div
0.1V/div
GAIN-CONTROL
TOGGLE
D: 130mv
@: 132mv
D: 130mv
@: 132mv
CH1 RMS:
188mV
D: 130mv
@: 132mv
100ns/div
100ns/div
Rx LNA SETTLING RESPONSE
(MAX - 32dB TO MAX GAIN STEP)
Rx LNA SETTLING RESPONSE
(MAX - 40dB TO MAX GAIN STEP)
MAX2851 toc43
100ns/div
MAX2851 toc44
CH1 RMS: 155mV
CH1 RMS: 154mV
HISTOGRAM: Rx I/Q GAIN IMBALANCE
MAX2851 toc45
648
540
Rx BASEBAND
OUTPUT
GAIN-CONTROL
TOGGLE
Rx BASEBAND
OUTPUT
0V
0V
0.1V/div
0.1V/div
GAIN-CONTROL
TOGGLE
324
216
108
D: 130mv
@: 132mv
D: 130mv
@: 132mv
200ns/div
432
0
200ns/div
-800.00m
0
800.00m
SAMPLES = 3413, AVG = -0.015dB,
STDEV = 0.042dB
14 �������������������������������������������������������������������������������������
5GHz, 5-Channel MIMO Receiver
MAX2851 toc46
180
POWER-ON DC OFFSET CANCELLATION
WITH INPUT SIGNAL
HISTOGRAM: Rx STATIC DC OFFSET
HISTOGRAM: Rx I/Q PHASE IMBALANCE
MAX2851 toc47
132
150
110
120
88
90
66
60
44
30
22
MAX2851 toc48
D: 2.14µs D: 112mV
@: 2.12µs @: 104mV
Rx ENABLE
0V
2V/div
Rx BASEBAND OUTPUT
0V
0.1V/div
ENGAGE 600kHz
HIGHPASS CORNER
0
-2.0000
0
2.0000
SAMPLES = 3413, AVG = -0.15deg,
STDEV = 0.18deg
-15.000m
0
15.000m
SAMPLES = 3413, AVG = -0.5mV,
STDEV = 2.14mV
POWER-ON DC OFFSET CANCELLATION
WITHOUT INPUT SIGNAL
Rx CHANNEL ISOLATION
MAX2851 toc49
80
Rx ENABLE
70
Rx3 TO Rx4 Rx5 TO Rx4
60
TURN-ON
TRANSIENT
RXBBQ_
500mV/div
ISOLATION (dB)
RXBBI_
50mV/div
1µs/div
MAX2851 toc50
0
50
40
30
Rx4 TO Rx5
20
Rx1 TO Rx2 Rx2 TO Rx3
5900
5800
5700
5600
5500
5400
5300
5200
5100
5000
0
400ns/div
4900
10
fLO (MHz)
______________________________________________________________________________________ 15
MAX2851
Typical Operating Characteristics (continued)
(VCC = 2.8V, TA = +25NC, fLO = 5.35GHz, fREF = 40MHz, CS = high, SCLK = DIN = low, RF BW = 20MHz, Tx output at 50ω unbalanced
output of balun, using the MAX2851 Evaluation Kit, unless otherwise noted.)
Typical Operating Characteristics (continued)
(VCC = 2.8V, TA = +25NC, fLO = 5.35GHz, fREF = 40MHz, CS = high, SCLK = DIN = low, RF BW = 20MHz, Tx output at 50ω unbalanced
output of balun, using the MAX2851 Evaluation Kit, unless otherwise noted.)
TRANSMITTER
OUTPUT RETURN LOSS AT
TA = +25°C vs. Tx CHANNELS
178
TA = +25°C
176
TA = -40°C
Tx2
-15
MAX2851 toc53
MAX2851 toc52s
-10
Tx3
TA = -20°C
-3
TA = +25°C
-4
-5
-6
-7
Tx1
TA = +85°C
-2
-3
5800
5900
5700
5600
5500
5400
5300
5200
MAX2851 toc55
-5
TA = +85°C
-10
5500
5700
-15
-20
TA = +85°C
-25
TA = +25°C
-30
10
20
60
-0.5
-0.6
-0.8
70
TA = +85°C
-36
10
0
20
30
40
50
60
70
Tx GAIN CODE
TA = -20°C
0
OUTPUT POWER (dBm)
TA = -20°C
-34
30
40
50
Tx GAIN CODE
2
MAX2851 toc57
TA = +25°C
-32
-0.4
Tx2 OUTPUT SPECTRUM AT -5dBM
(20MHz CHANNEL BANDWIDTH,
802.11a 54Mbps)
Tx MAX OUTPUT POWER MEETING
-33dBc EVM AND 802.11a
SPECTRAL MASK
Tx EVM vs. OUTPUT POWER
(100mVRMS 54Mbps WLAN SIGNAL)
-30
TA = -20°C
TA = +85°C
FREQUENCY (MHz)
-28
5.9
-0.7
0
5900
5.7
TA = -20°C
-18
MAX2851 toc58
5300
TA = +25°C
-0.3
-40
-5
5.5
Tx GAIN STEP vs. GAIN SETTING
-35
5100
5.3
-0.2
GAIN STEP (dB)
TA = -20°C
4900
5.1
Tx OUTPUT POWER vs. GAIN SETTING
OUTPUT POWER (dBm)
0
-4
4.9
FREQUENCY (GHz)
0
MAX2851 toc54
1
TA = +25°C
-9
FREQUENCY (MHz)
Tx OUTPUT POWER
vs. FREQUENCY AT MAXIMUM GAIN
-1
5100
VCC (V)
5000
-25
2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5 3.6
4900
-8
172
OUTPUT POWER (dBm)
-2
Tx4
-20
174
-1
MAX2851 toc59
TA = +85°C
0
RETURN LOSS (dB)
180
-5
RETURN LOSS (dB)
182
ICC (mA)
0
MAX2851 toc51
184
Tx OUTPUT RETURN LOSS
vs. FREQUENCY
MAX2851 toc56
Tx MODE SUPPLY CURRENT
Tx EVM (dB)
MAX2851
5GHz, 5-Channel MIMO Receiver
0dBr
-28
-38
-48
-2
10dB/div
TA = +25°C
-4
TA = +85°C
-40dBr
-58
-68
-78
-6
-88
-38
-40
-35
-30
-25
-20
-15
-10
OUTPUT POWER (dBm)
-5
0
-98
-8
4900
5100
5300
5500
FREQUENCY (MHz)
5700
5900
5300
5350
RF FREQUENCY (MHz)
16 �������������������������������������������������������������������������������������
5400
5GHz, 5-Channel MIMO Receiver
-45
-50
-55
MAX2851 toc62
TA = -20°C
TA = +85°C
TA = +25°C
-35
TA = -20°C
-45
0
5900
5800
5700
5600
70
RF FREQUENCY (MHz)
Tx6 OUTPUT EMISSION SPECTRUM
AT MAX GAIN AND COLD
(100mVRMS 802.11A 54Mbps SIGNAL)
LO
-10
OUTPUT POWER (dBm/MHz)
MAX2851 toc63
-25
60
5500
30
40
50
Tx GAIN CODE
5400
20
5300
10
MAX2851 toc64
5900
5800
5700
5600
5500
5400
5300
5200
5100
5000
0
Tx UNWANTED SIDEBAND
vs. GAIN SETTING
UNWANTED SIDEBAND (dBc)
4900
-65
-65
RF FREQUENCY (MHz)
-40
TA = +25°C
-55
-60
-60
-30
-50
5200
-60
-65
TA = +25°C
-45
5000
-55
-40
TA = +85°C
-40
4900
TA = +85°C
TA = +25°C
TA = -20°C
-35
-35
UNWANTED SIDEBAND (dBc)
-45
TA = +85°C
-30
CARRIER LEAKAGE (dBc)
-40
MAX2859 toc61
TA = -20°C
CARRIER LEAKAGE (dBc)
-25
MAX2851 toc60
-35
-50
Tx UNWANTED SIDEBAND
vs. RF FREQUENCY
Tx CARRIER LEAKAGE vs. GAIN SETTING
5100
Tx CARRIER LEAKAGE
vs. RF FREQUENCY
-20
-30
-40
2 LO
-50
3 LO
-60
4 LO
-70
-80
-90
-100
-50
0
10
20
30
40
50
60
0Hz
70
Tx GAIN CODE
MAX2851 toc65
156
85
130
68
104
51
78
34
52
17
26
0
26.5
HISTOGRAM: SIDEBAND SUPPRESSION
HISTOGRAM: CARRIER SUPPRESSION
102
2.65GHz/div
RF FREQUENCY (GHz)
MAX2851 toc66
0
-50.000
-34.000
-18.000
SAMPLES = 3413, AVG = -34.9dBc,
STDEV = 3.61dB
-62.000
-44.000
-26.000
SAMPLES = 3413, AVG = -44.6dBc,
STDEV = 2.58dB
______________________________________________________________________________________ 17
MAX2851
Typical Operating Characteristics (continued)
(VCC = 2.8V, TA = +25NC, fLO = 5.35GHz, fREF = 40MHz, CS = high, SCLK = DIN = low, RF BW = 20MHz, Tx output at 50ω unbalanced
output of balun, using the MAX2851 Evaluation Kit, unless otherwise noted.)
Typical Operating Characteristics (continued)
(VCC = 2.8V, TA = +25NC, fLO = 5.35GHz, fREF = 40MHz, CS = high, SCLK = DIN = low, RF BW = 20MHz, Tx output at 50ω unbalanced
output of balun, using the MAX2851 Evaluation Kit, unless otherwise noted.)
SYNTHESIZER
ICC (mA)
4.5
4.0
TA = +25°C
6.0
5.0
TA = +85°C
5.5
TA = +85°C
5.0
TA = -40°C
3.5
MAX2851 toc69
6.5
TA = +25°C
6.5
LO FREQUENCY (GHz)
5.5
7.0
MAX2851 toc68
7.0
MAX2851 toc67
6.0
LO FREQUENCY vs. DIFFERENTIAL
TUNE VOLTAGE AT TA = +25°C
CLKOUT2 MODE SUPPLY CURRENT
CLKOUT MODE SUPPLY CURRENT
ICC (mA)
6.0
5.5
5.0
4.5
4.5
TA = -40°C
4.0
4.0
3.0
2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5 3.6
2.6 2.7 2.8 2.9 3.0 3.1 3.2 3.3 3.4 3.5 3.6
VCC (V)
VCC (V)
0.5
1.0
1.5
LO PHASE NOISE AT 5350MHz AND ROOM
TEMPERATURE
-60
-70
PHASE NOISE (dBc/Hz)
500
400
300
200
MAX2851 toc71
-50
MAX2851 toc70
600
-80
-90
-100
-110
-120
-130
100
-140
-150
0
0
0.5
1.0
1.5
2.0
1k
2.5
10M
DIFFERENTIAL TUNE VOLTAGE (V)
OFFSET FREQUENCY (Hz)
LO PHASE NOISE AT 5900MHz AND HOT
TEMPERATURE
CHANNEL SWITCHING FREQUENCY
SETTLING (4900MHz TO 5900MHz,
AUTOMATIC VCO SUB-BAND SELECTION)
MAX2851 toc72
-50
-60
FREQUENCY (5kHz/div)
-70
25kHz
MAX2851 toc73
LO GAIN (MHz/V)
0
-80
-90
-100
-110
-120
-130
-140
-150
1k
10M
OFFSET FREQUENCY (Hz)
2.0
DIFFERENTIAL TUNE VOLTAGE (V)
LO GAIN vs. DIFFERENTIAL
TUNE VOLTAGE AT TA = +25°C
PHASE NOISE (dBc/Hz)
MAX2851
5GHz, 5-Channel MIMO Receiver
-25kHz
0s
3.99ms
400µs/div
18 �������������������������������������������������������������������������������������
2.5
5GHz, 5-Channel MIMO Receiver
CHANNEL SWITCHING FREQUENCY
SETTLING (5900MHz TO 4900MHz,
AUTOMATIC VCO SUB-BAND SELECTION)
FREQUENCY (5kHz/div)
FREQUENCY (5kHz/div)
-25kHz
-25kHz
0s
-25kHz
0s
3.99ms
25kHz
MAX2851 toc76
MAX2851 toc75
25kHz
CHANNEL SWITCHING FREQUENCY
SETTLING (5900MHz TO 4900MHz,
MANUAL VCO SUB-BAND SELECTION)
FREQUENCY (5kHz/div)
MAX2851 toc74
25kHz
CHANNEL SWITCHING FREQUENCY
SETTLING (4900MHz TO 5900MHz,
MANUAL VCO SUB-BAND SELECTION)
99.22µs
0s
99.22µs
400µs/div
10µs/div
10µs/div
Tx-TO-Rx TURNAROUND FREQUENCY
SETTLING AT MAX Tx POWER
Rx-TO-Tx TURNAROUND FREQUENCY
SETTLING AT MAX Tx POWER
CRYSTAL OSCILLATOR TUNING RANGE
WITH KYOCERA 40MHz 2520 CRYSTAL
-50kHz
49.84µs
0s
MAX2851 toc79
60
40
TA = +25°C
20
TA = +85°C
0
-20
-40
TA = -20°C
-60
-80
0
49.84µs
5µs/div
50
5µs/div
1.5
1.0
0.5
0
200
250
300
MAX2851 toc81
140
CAPACITANCE AT BASE AND EMITTER (pF)
2.0
150
CRYSTAL OSCILLATOR TUNING
CAPACITANCE AT BASE AND EMITTER
(INCLUDE EV KIT COMPONENTS)
MAX2851 toc80
2.5
100
CRYSTAL TUNING CODE
CRYSTAL OSCILLATOR TUNING STEP
WITH KYOCERA 2520 40MHz CRYSTAL
CRYSTAL OSCILLATOR FREQUENCY TUNING STEP
(ppm)
80
-100
-50kHz
0s
100
FREQUENCY DEVIATION FROM 40MHz (ppm)
MAX2851 toc78
50kHz
FREQUENCY ERROR (10kHz/div)
FREQUENCY ERROR (10kHz/div)
MAX2851 toc77
50kHz
120
EMITTER-TO-GROUND
CAPACITANCE
100
80
BASE-TO-GROUND
CAPACITANCE
60
40
20
0
-0.5
0
50
100
150
200
CRYSTAL TUNING CODE
250
300
0
50
100
150
200
250
300
CRYSTAL TUNING CODE
______________________________________________________________________________________ 19
MAX2851
Typical Operating Characteristics (continued)
(VCC = 2.8V, TA = +25NC, fLO = 5.35GHz, fREF = 40MHz, CS = high, SCLK = DIN = low, RF BW = 20MHz, Tx output at 50ω unbalanced
output of balun, using the MAX2851 Evaluation Kit, unless otherwise noted.)
VCC_XTAL
XTAL
XTAL_CAP
RSSI
RXBBI2+
RXBBI2-
RXBB2Q+
RXBB2Q-
VCC_BB1
RXBBI1+
RXBBI1-
RXBBQ1+
RXBBQ1-
RXRF1+
VCC_LNA1
ENABLE
TOP VIEW
RXRF1-
Pin Configuration
68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52
GND 1
51 CLKOUT
VCC_LNA2 2
50 CLKOUT2
RXRF2- 3
49 DOUT
RXRF2+ 4
48 VCC_DIG
VCC_MXR1 5
47 CPOUT-
VCC_LNA3 6
46 CPOUT+
RXRF3- 7
45 GND_VCO
RXRF3+ 8
44 BYP_VCO
VCC_MXR2 9
43 VCC_VCO
MAX2851
PA_DET 10
42 RXBBQ3-
RXRF4- 11
41 RXBBQ3+
RXRF4+ 12
40 RXBBI3-
VCC_LNA4 13
39 RXBBI3+
38 DIN
PA_BIAS 14
TXRF+ 15
37 SCLK
*EP
TXRF- 16
36 CS
35 RXBBQ4-
VCC_PA_BIAS 17
RXBBQ4+
RXBBI4-
RXBBI4+
TXBBQ-
TXBBQ+
TXBBI-
TXBBI+
RXBBQ5-
RXBBI5-
RXBBQ5+
RXBBI5+
GND
VCC_BB2
RXRF5+
RXRF5-
VCC_LNA5
18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34
VCC_UCX
MAX2851
5GHz, 5-Channel MIMO Receiver
TQFN
*EXPOSED PAD.
20 �������������������������������������������������������������������������������������
5GHz, 5-Channel MIMO Receiver
PIN
NAME
1, 22
GND
2
VCC_LNA2
3
RXRF2-
4
RXRF2+
FUNCTION
Ground
Receiver 2 LNA Supply Voltage. Bypass with a capacitor as close as possible to the pin.
Receiver 2 LNA Differential Input. Input is DC-coupled and biased internally at 1.2V.
5
VCC_MXR1
Receiver Downconverter Supply Voltage 1. Bypass with a capacitor as close as possible to the pin.
6
VCC_LNA3
Receiver 3 LNA Supply Voltage. Bypass with a capacitor as close as possible to the pin.
7
RXRF3-
8
RXRF3+
9
VCC_MXR2
10
PA_DET
11
RXRF4-
12
RXRF4+
Receiver 3 LNA Differential Input. Input is DC-coupled and biased internally at 1.2V.
Receiver Downconverter Supply Voltage 2. Bypass with a capacitor as close as possible to the pin.
External Power-Amplifier Detector Mux Input
Receiver 4 LNA Differential Input. Input is DC-coupled and biased internally at 1.2V.
13
VCC_LNA4
Receiver 4 LNA Supply Voltage. Bypass with a capacitor as close as possible to the pin.
14
PA_BIAS
External Power-Amplifier Voltage Bias Output
15
TXRF+
16
TXRF-
Transmitter Differential Output. These pins are in open-collector configuration. These pins should
be biased at the supply voltage with differential impedance terminated at 300I.
BIAS
External Power-Amplifier Voltage Bias and Detector Mux Supply Voltage. Bypass with a capacitor
as close as possible to the pin.
18
VCC_UCX
Transmitter Upconverter Supply Voltage. Bypass with a capacitor as close as possible to the pin.
19
VCC_LNA5
Receiver 5 LNA Supply Voltage. Bypass with a capacitor as close as possible to the pin.
17
VCC_PA_
20
RXRF5-
21
RXRF5+
23
VCC_BB2
24
RXBBI5+
25
RXBBI5-
26
RXBBQ5+
27
RXBBQ5-
28
TXBBI+
29
TXBBI-
30
TXBBQ+
31
TXBBQ-
32
RXBBI4+
33
RXBBI4-
34
RXBBQ4+
35
RXBBQ4-
36
37
CS
SCLK
38
DIN
39
RXBBI3+
40
RXBBI3-
41
RXBBQ3+
42
RXBBQ3-
Receiver 5 LNA Differential Input. Input is DC-coupled and biased internally at 1.2V.
Receiver Baseband Supply Voltage 2. Bypass with a capacitor as close as possible to the pin.
Receiver 5 Baseband I-Channel Differential Output
Receiver 5 Baseband Q-Channel Differential Output
Transmitter Baseband I-Channel Differential Input
Transmitter Baseband Q-Channel Differential Input
Receiver 4 Baseband I-Channel Differential Output
Receiver 4 Baseband Q-Channel Differential Output
Active-Low Chip-Select Logic Input of 4-Wire Serial Interface
Serial-Clock Logic Input of 4-Wire Serial Interface
Data Logic Input of 4-Wire Serial Interface
Receiver 3 Baseband I-Channel Differential Output
Receiver 3 Baseband Q-Channel Differential Output
______________________________________________________________________________________ 21
MAX2851
Pin Description
MAX2851
5GHz, 5-Channel MIMO Receiver
Pin Description (continued)
PIN
NAME
43
VCC_VCO
VCO Supply Voltage. Bypass with a capacitor as close as possible to the pin.
FUNCTION
44
BYP_VCO
On-Chip VCO Regulator Output Bypass. Bypass with an external 1FF capacitor to GND_VCO with
minimum PCB trace. Do not connect other circuitry to this pin.
45
GND_VCO
VCO Ground
46
CPOUT+
47
CPOUT-
Differential Charge-Pump Output. Connect the frequency synthesizer’s loop filter between
CPOUT+ and CPOUT- (see the Typical Operating Circuit).
48
VCC_DIG
Digital Block Supply Voltage. Bypass with a capacitor as close as possible to the pin.
49
DOUT
50
CLKOUT2
51
CLKOUT
Reference Clock Buffer Output
52
VCC_XTAL
Crystal Oscillator Supply Voltage. Bypass with a capacitor as close as possible to the pin.
53
XTAL
54
XTAL_CAP
55
RSSI
56
RXBBI2+
57
RXBBI2-
58
RXBBQ2+
59
RXBBQ2-
60
VCC_BB1
61
RXBBI1+
62
RXBBI1-
63
RXBBQ1+
64
RXBBQ1-
65
VCC_LNA1
66
RXRF1+
67
RXRF1-
68
ENABLE
—
EP
Data Logic Output of 4-Wire Serial Interface
Reference Clock Buffer Output 2
Crystal Oscillator Base Input. AC-couple crystal unit to this pin.
Crystal Oscillator Emitter Node
Receiver Signal Strength Indicator Output
Receiver 2 Baseband I-Channel Differential Output
Receiver 2 Baseband Q-Channel Differential Output
Receiver Baseband Supply Voltage 1. Bypass with a capacitor as close as possible to the pin.
Receiver 1 Baseband I-Channel Differential Output
Receiver 1 Baseband Q-Channel Differential Output
Receiver 1 LNA Supply Voltage. Bypass with a capacitor as close as possible to the pin.
Receiver 1 LNA Differential Input. Input is DC-coupled and biased internally at 1.2V.
Enable Logic Input
Exposed Paddle. Connect to the ground plane with multiple vias for proper operation and heat
dissipation. Do not share with any other pin grounds and bypass capacitors’ ground.
22 �������������������������������������������������������������������������������������
5GHz, 5-Channel MIMO Receiver
MODE CONTROL
LOGIC INPUTS
MODE
CIRCUIT BLOCK STATES
ENABLE
Pin
SPI Main
Address 0,
D[4:2]
Rx Path
Tx Path
(Note 1)
LO Path
Clkout
(Notes 2, 3)
Calibration
sections on
SHUTDOWN
0
XXX
Off
Off
Off
Off
None
CLOCKOUT
1
000
Off
Off
Off
On
None
STANDBY
1
001
Off
Off
On
On
None
Rx
1
010
On
Off
On
On
None
Tx
1
011
Off
On
On
On
None
Tx CALIBRATION
1
100
Off
On
On
On
AM detector + Rx5
I/Q buffers
RF LOOPBACK
1
101
On (except LNA)
On
On
On
RF loopback
BASEBAND
LOOPBACK
1
11X
On (except RXRF)
Off
On
On
Tx baseband buffer
Note 1: PA_BIAS pin can be kept active in nontransmit mode(s) by SPI programming.
Note 2: CLKOUT signal is active independent of SPI, and is only dependent on the ENABLE pin.
Note 3: CLKOUT2 signal can be enabled/disabled through SPI in all operating modes except shutdown mode.
Detailed Description
Modes of Operation
The MAX2851 modes of operation are shutdown, clockout, standby, receive, transmit, transmitter calibration,
RF loopback, and baseband loopback. See Table 1 for
a summary of the modes of operation. The logic input pin
ENABLE (pin 68) and SPI Main address 0 D[4:2] control
the various modes.
Shutdown Mode
The MAX2851 features a low-power shutdown mode. All
circuit blocks are powered down, except the 4-wire serial
bus and its internal programmable registers.
Clockout Mode
In clockout mode, only the crystal oscillator signal is
active at the CLKOUT pin. The rest of the transceiver is
powered down.
Standby Mode
In standby mode, PLL, VCO, and LO generation are on.
Tx or Rx modes can be quickly enabled from this mode.
Other blocks can be selectively enabled in this mode
Receive (Rx) Mode
In receive mode, all Rx circuit blocks are powered on
and active. The antenna signal is applied; RF is downconverted, filtered, and buffered at the RXBB I and Q
outputs.
Transmit (Tx) Mode
In transmit mode, all Tx circuit blocks are powered on
and active. The external PA can be powered on through
the PA_BIAS pin after a programmable delay.
Transmit Calibration Mode
In transmit calibration mode, all Tx circuit blocks are
powered on and active. The AM detector and receiver
I/Q channel buffers are also on. Output signals are
routed to RXBB I and Q outputs.
The AM detector multiplies the Tx RF output signal with
itself. The self-mixing product of the wanted sideband
becomes DC voltage and is filtered on-chip. The mixing
product between wanted sideband and the carrier leakage forms Ftone at the Rx baseband output. The mixing
product between the wanted sideband and the unwanted sideband forms 2Ftone at the Rx baseband output.
As the Tx RF output is self-mixed at the AM detector,
the AM detector output responds differently to different
gain settings and power levels. When the Tx RF output
power changes by 1dB through Tx gain control, the AM
detector output changes by 2dB as both the wanted
sideband and carrier leakage (or unwanted sideband)
change by 1dB. When Tx RF output carrier leakage (or
unwanted sideband) changes by 1dB while the wanted
sideband output power is constant, the AM detector output changes by 1dB only.
______________________________________________________________________________________ 23
MAX2851
Table 1. Operating Modes
MAX2851
5GHz, 5-Channel MIMO Receiver
RF Loopback Mode
In RF loopback mode, part of the Rx and Tx circuit
blocks except the LNA are powered on and active. The
transmitter I/Q input signal is upconverted to RF, and the
output of the transmitter is fed to the receiver downconverter input. Output signals are delivered to all receiver
baseband I/Q outputs. The I/Q lowpass filters in the
transmitter signal path are bypassed.
offset settles, the user can set Main address 5 D1 = 0 to
complete Rx DC-offset cancellation.
Programmable Registers and
4-Wire SPI Interface
The MAX2851 includes 60 programmable 16-bit registers. The most significant bit (MSB) is the read/write
selection bit (R/W in Figure 1). The next 5 bits are register
address (A[4:0] in Figure 1). The 10 least significant bits
(LSBs) are register data (D[9:0] in Figure 1). Register
data is loaded through the 4-wire SPI/MICROWIREKcompatible serial interface. MSB of data at the DIN pin
is shifted in first and is framed by CS. When CS is low,
the clock is active and input data is shifted at the rising
edge of the clock at the SCLK pin. At CS rising edge,
the 10-bit data bits are latched into the register selected
by the address bits. See Figure 1. To support more than
a 32-register address using a 5-bit-wide address word,
the bit 0 of address 0 is used to select whether the 5-bit
address word is applied to the main address or local
address. There is no power-on SPI register self-reset
functionality in the MAX2851; the user must program all
register values after power-up. During the read mode,
register data selected by address bits is shifted out to
the DOUT pin at the falling edges of the clock.
Baseband Loopback Mode
In baseband loopback mode, part of the Rx and Tx
baseband circuit blocks are powered and active. The
transmitter I/Q input signal is routed to the receiver lowpass filter input. Output signals are delivered to receiver 5
baseband I/Q outputs.
Power-On Sequence
Set the ENABLE pin to VCC for 2ms to start the crystal
oscillator. Program all SPI addresses according to recommended values. Set SPI Main address 0 D[4:2] from
000 to 001 to engage standby mode. To lock the LO
frequency, the user can set SPI in order of Main address
15, Main address 16, and then Main address 17 to trigger VCO sub-band autoacquisition; the acquisition takes
2ms. After the LO frequency is locked, set SPI Main
address 0 D[4:2] = 010 and 011 for Rx and Tx operating
modes, respectively. Before engaging to Rx mode, set
Main address 5 D1 = 1 to allow fast DC-offset settling.
After engaging to Rx mode and the Rx baseband DC
MICROWIRE is a trademark of National Semiconductor Corp.
tCSW
CS
tCSO
tCSH
tCSS
tCS1
SCLK
tDS
tCH
tDH
tCL
DIN
(SPI WRITE)
R/W
A4
A0
D9
D0
DON’T CARE
DIN
(SPI READ)
R/W
A4
A0
D9
D0
DON’T CARE
tD
DOUT
(SPI READ)
DON’T CARE
D9
D0
DON’T CARE
Figure 1. 4-Wire SPI Serial-Interface Timing Diagram
24 �������������������������������������������������������������������������������������
5GHz, 5-Channel MIMO Receiver
on-default self-reset feature; the user must program all
SPI addresses for normal operation. Prior to use of any
untested settings, contact the factory.
All values in the register definition table are typical
numbers. The MAX2851 SPI does not have a power-
Table 2. Register Summary
REGISTER
Main 0
Main 1
Main 2
READ/WRITE AND
ADDRESS
MAIN0_
WRITE (W)/
A[4:0]
D0
READ (R)
0
0
0
00000
00001
00010
Main 4
Main 5
0
0
0
00011
00100
00101
D9
D8
0
0
W/R
Default
W/R
Default
Default
R
D7
D6
D5
D4
0
1
0
D3
RESERVED
0
RESERVED
0
W/R
W
Main 3
DATA
0
0
MODE[2:0]
0
LNA_GAIN[2:0]
1
RESERVED
1
RESERVED
D2
1
0
TS_EN
0
TS_
TRIG
D0
RFBW
M/L_SEL
1
0
1
1
0
0
0
VGA_GAIN[4:0]
1
1
1
LNA_BAND[1:0]
1
D1
1
RESERVED
1
0
0
0
RESERVED
RESERVED
TS_READ[4:0]
Default
0
0
0
0
0
0
0
0
0
Reserved
1
1
0
0
0
1
1
1
0
0
W/R
RESERVED
RESERVED
RXHP
RESERVED
Default
0
0
0
0
W/R
RSSI_MUX_SEL[2:0]
0
0
0
RSSI_RX_SEL[2:0]
0
0
0
RX_GAIN_PROG_SEL[5:1]
E_RX[5:1]
Main 6
0
00110
Reserved
1
1
1
1
1
1
1
1
1
1
Main 7
0
00111
Reserved
0
0
0
0
1
0
0
1
0
0
Main 8
0
01000
W/R
0
0
0
0
0
0
0
0
0
0
Main 9
0
01001
Main 10
0
01010
Main 11
0
01011
Main 13
0
01101
Main 14
0
01110
Main 15
0
01111
W/R
Main 17
Main 18
0
0
0
10000
10001
10010
RESERVED
Default
0
0
0
0
0
0
1
1
1
1
Reserved
0
0
0
0
0
0
0
0
0
0
Default
0
0
0
1
1
0
0
0
0
0
Reserved
0
0
0
0
0
0
0
0
0
0
W/R
E_CLKOUT2
Default
1
1
0
1
0
0
0
W/R
W/R
Default
Main 16
TX_GAIN[5:0]
RESERVED
VAS_
TRIG_EN
RESERVED
1
0
0
W/R
Default
0
0
SYN_CONFIG_N[6:0]
1
0
0
0
0
1
0
0
0
0
0
0
0
0
0
0
0
0
SYN_CONFIG_F[19:10]
1
1
1
0
W/R
Default
DOUT_SEL RESERVED
RESERVED
W/R
Default
1
0
0
SYN_CONFIG_F[9:0]
0
0
0
0
0
RESERVED
0
0
XTAL_TUNE[7:0]
0
1
0
0
0
0
______________________________________________________________________________________ 25
MAX2851
SPI Register Definition
MAX2851
5GHz, 5-Channel MIMO Receiver
Table 2. Register Summary (continued)
REGISTER
READ/WRITE AND
ADDRESS
MAIN0_
WRITE (W)/
A[4:0]
D0
READ (R)
DATA
D9
D8
D7
D6
VAS_
W/R
Main 19
Main 20
0
0
RESERVED
RELOCK_
SEL
10011
10100
Main 21
0
10101
Main 22
0
10110
Read
RESERVED
Default
0
0
0
0
1
1
Reserved
Read
D5
D4
VAS_
D2
D1
D0
1
1
1
0
1
0
VAS_SPI[5:0]
MODE
VAS_ADC[2:0]
RESERVED
D3
VCO_BAND[5:0]
1
0
1
1
1
1
0
1
DIE_ID[2:0]
RESERVED
Default
0
0
1
0
1
1
1
1
1
1
Reserved
0
1
1
0
1
1
1
0
0
0
Main 23
0
10111
Reserved
0
0
0
1
1
0
0
1
0
1
Main 24
0
11000
Reserved
1
0
0
1
0
0
1
1
1
1
Main 25
0
11001
Reserved
1
1
1
0
1
0
1
0
0
0
Main 26
0
11010
Reserved
0
0
0
0
0
1
0
1
0
1
Main 27
0
11011
0
0
W/R
Default
Main 28
0
11100
Main 29
0
11101
DIE_ID_
0
VAS_VCO_
RESERVED
READ
1
1
W/R
RESERVED
READ
0
0
0
0
RESERVED
0
PA_BIAS_DLY[3:0]
Default
0
0
0
1
1
0
0
0
1
1
Reserved
0
0
0
0
0
0
0
0
0
0
Main 30
0
11110
Reserved
0
0
0
0
0
0
0
0
0
0
Main 31
0
11111
Reserved
0
0
0
0
0
0
0
0
0
0
Local 1
1
00001
Reserved
0
0
0
0
0
0
0
0
0
0
Local 2
1
00010
Reserved
0
0
0
0
0
0
0
0
0
0
Local 3
1
00011
Reserved
0
0
0
0
0
0
0
0
0
0
Local 4
1
00100
Local 5
1
Local 6
1
Local 7
W/R
RFDET_MUX_SEL[2:0]
RESERVED
Reserved
1
1
1
0
0
0
0
0
0
0
00101
Reserved
0
0
0
0
0
0
0
0
0
0
00110
Reserved
0
0
0
0
0
0
0
0
0
0
1
00111
Reserved
0
0
0
0
0
0
0
0
0
0
Local 8
1
01000
Reserved
0
1
1
0
1
0
1
0
1
0
Local 9
1
01001
Reserved
0
1
0
0
0
1
0
1
0
0
Local 10
1
01010
Reserved
1
1
0
1
0
1
0
1
0
0
Local 11
1
01011
Reserved
0
0
0
1
1
1
0
0
1
1
Local 12
1
01100
Reserved
0
0
0
0
0
0
0
0
0
0
Local 13
1
01101
Reserved
0
0
0
0
0
0
0
0
0
0
Local 14
1
01110
Reserved
0
0
0
0
0
0
0
0
0
0
Local 15
1
01111
Reserved
0
0
0
0
0
0
0
0
0
0
Local 16
1
10000
Reserved
0
0
0
0
0
0
0
0
0
0
Local 17
1
10001
Reserved
0
0
0
0
0
0
0
0
0
0
26 �������������������������������������������������������������������������������������
5GHz, 5-Channel MIMO Receiver
REGISTER
READ/WRITE AND
ADDRESS
MAIN0_
WRITE (W)/
A[4:0]
D0
READ (R)
DATA
D9
D8
D7
D6
D5
D4
D3
D2
D1
D0
Local 18
1
10010
Reserved
0
0
0
0
0
0
0
0
0
0
Local 19
1
10011
Reserved
0
0
0
0
0
0
0
0
0
0
Local 20
1
10100
Reserved
0
0
0
0
0
0
0
0
0
0
Local 21
1
10101
Reserved
0
0
0
0
0
0
0
0
0
0
Local 22
1
10110
Reserved
0
0
0
0
0
0
0
0
0
0
Local 23
1
10111
Reserved
0
0
0
0
0
0
0
0
0
0
Local 24
1
11000
Reserved
0
0
1
1
0
0
0
1
0
0
Local 25
1
11001
Reserved
0
1
0
0
1
0
1
0
1
1
Local 26
1
11010
Reserved
0
1
0
1
1
0
0
1
0
W/R
RESERVED
1
TX_AMD_
TX_AMD_
BB_GAIN
RF_GAIN
Local 27
1
11011
Default
0
0
0
0
0
0
0
0
0
0
Local 28
1
11100
Reserved
0
0
0
0
0
0
0
1
0
0
Local 31
1
11111
Reserved
0
0
0
0
0
0
0
0
0
0
______________________________________________________________________________________ 27
MAX2851
Table 2. Register Summary (continued)
MAX2851
5GHz, 5-Channel MIMO Receiver
Table 3. Main Address 0 (A[4:0] = 00000)
BIT NAME
BIT LOCATION
(D0 = LSB)
RESERVED
D[9:5]
Reserved bits—set to default.
MODE[2:0]
D[4:2]
IC operating mode select.
000 = Clockout (default)
001 = Standby
010 = Rx
011 = Tx
100 = Tx calibration
101 = RF loopback
11x = Baseband loopback
RFBW
D1
RF bandwidth.
0 = 20MHz
1 = 40MHz (default)
M/L_SEL
D0
Main or local address select.
0 = Main registers (default)
1 = Local registers
DESCRIPTION
Table 4. Main Address 1 (A[4:0] = 00001, Main Address 0 D0 = 0)
BIT NAME
BIT LOCATION
(D0 = LSB)
RESERVED
D[9:8]
Reserved bits—set to default.
D[7:5]
LNA gain control. Active when Rx channel is selected by corresponding RX_GAIN_PROG_SEL[5:1] bits in Main address 6 D[9:5].
000 = Max - 40dB
001 = Max - 32dB
100 = Max - 24dB (not tested, contact factory for coverage)
101 = Max - 16dB
110 = Max - 8dB
111 = Max gain (default)
D[4:0]
Rx VGA gain control. Active when Rx channel is selected by corresponding RX_GAIN_PROG_SEL[5:1] bits in Main address 6 D[9:5].
00000 = Min gain
00001 = Min + 2dB
…
01110 = Min + 28dB
01111 = Min + 30dB
…
1xxxx = Min + 30dB (default)
LNA_GAIN[2:0]
VGA_GAIN[4:0]
DESCRIPTION
28 �������������������������������������������������������������������������������������
5GHz, 5-Channel MIMO Receiver
BIT NAME
BIT LOCATION
(D0 = LSB)
RESERVED
D[9:7], D[4:0]
Reserved bits—set to default.
D[6:5]
LNA frequency band switch.
00 = 4.9GHz~5.2GHz
01 = 5.2GHz~5.5GHz (default)
10 = 5.5GHz~5.8GHz
11 = 5.8GHz~5.9GHz
LNA_BAND[1:0]
DESCRIPTION
Table 6. Main Address 3 (A[4:0] = 00011, Main Address 0 D0 = 0)
BIT NAME
BIT LOCATION
(D0 = LSB)
RESERVED
D[9:8], D5
TS_EN
D7
Temperature sensor enable.
0 = Disable (default)
1 = Enable except shutdown or clockout mode
TS_TRIG
D6
Temperature sensor reading trigger.
0 = Not trigger (default)
1 = Trigger temperature reading
TS_READ[4:0]
(Readback Only)
D[4:0]
DESCRIPTION
Reserved bits—set to default.
SPI readback only. Temperature sensor reading.
Table 7. Main Address 5 (A[4:0] = 00101, Main Address 0 D0 = 0)
BIT NAME
BIT LOCATION
(D0 = LSB)
RESERVED
D9, D2, D0
RSSI_MUX_SEL[2:0]
D[8:6]
DESCRIPTION
Reserved bits—set to default.
RSSI output select.
000 = Baseband RSSI (default)
001 = Do not use
010 = Do not use
011 = Do not use
100 = Rx RF detector
101 = Do not use
110 = PA power-detector mux output
111 = Do not use
______________________________________________________________________________________ 29
MAX2851
Table 5. Main Address 2 (A[4:0] = 00010, Main Address 0 D0 = 0)
MAX2851
5GHz, 5-Channel MIMO Receiver
Table 7. Main Address 5 (A[4:0] = 00101, Main Address 0 D0 = 0) (continued)
BIT NAME
RSSI_RX_SEL[2:0]
RXHP
BIT LOCATION
(D0 = LSB)
D[5:3]
D1
DESCRIPTION
Baseband RSSI Rx channel select.
000 = Not select (default)
001 = Rx1
010 = Rx2
011 = Rx3
100 = Rx4
101 = Rx5
110 = Do not use
111 = Do not use
Rx VGA highpass corner select after Rx turn-on. RXHP starts at 1 during Rx gain adjustment and set 0 after gain is adjusted.
0 = 10kHz highpass corner after Rx gain is adjusted (default)
1 = 600kHz highpass corner during Rx gain adjustment
Table 8. Main Address 6 (A[4:0] = 00110, Main Address 0 D0 = 0)
BIT NAME
RX_GAIN_PROG_SEL
[5:1]
E_RX[5:1]
BIT LOCATION
(D0 = LSB)
DESCRIPTION
D[9:5]
Rx channel gain programming select. Select which Rx channels are to be
changed; gain is then determined by programming Main address 1 D[7:0].
D9 selects Rx5, D8 selects Rx4, etc.
0 = Not selected
1 = Selected
1111 = Default
D[4:0]
Rx MIMO channel select. Enable Rx channels independently.
D4 selects Rx5, D3 selects Rx4, etc.
0 = Not selected
1 = Select in Rx, RF loopback, or Tx calibration mode
11111 = Default
Table 9. Main Address 9 (A[4:0] = 01001, Main Address 0 D0 = 0)
BIT LOCATION
(D0 = LSB)
DESCRIPTION
TX_GAIN[5:0]
D[9:4]
Tx VGA gain control. Tx channel is selected by Main address 9 D[3:0].
000000 = Min gain (default)
…
111111 = Min gain + 31.5dB
RESERVED
D[3:0]
Reserved bits—set to default.
BIT NAME
30 �������������������������������������������������������������������������������������
5GHz, 5-Channel MIMO Receiver
BIT NAME
BIT LOCATION
(D0 = LSB)
E_CLKOUT2
D9
RESERVED
D[8:2], D1
Reserved bits—set to default.
DOUT_SEL
D1
DOUT pin output select.
0 = PLL lock detect (default)
1 = SPI readback
DESCRIPTION
CLKOUT2 enable.
0 = Disable
1 = Enable except during shutdown mode (default)
Table 11. Main Address 15 (A[4:0] = 01111, Main Address 0 D0 = 0)
BIT NAME
BIT LOCATION
(D0 = LSB)
DESCRIPTION
Enable VCO sub-band acquisition triggerred by SYN_CONFIG_F[9:0]
(Main address 17) programming.
0 = Disable for small frequency adjustment (i.e., ~100kHz).
1 = Enable for channel switching (default)
VAS_TRIG_EN
D9
RESERVED
D[8:7]
Reserved bits—set to default.
SYN_CONFIG_N[6:0]
D[6:0]
Integer divide ratio.
1000010 = Default
Table 12. Main Address 16 (A[4:0] = 10000, Main Address 0 D0 = 0)
BIT NAME
BIT LOCATION
(D0 = LSB)
SYN_CONFIG_F[19:10]
D[9:0]
DESCRIPTION
Fractional divide ratio MSBs.
1110000000 = Default
Table 13. Main Address 17 (A[4:0] = 10001, Main Address 0 D0 = 0)
BIT NAME
BIT LOCATION
(D0 = LSB)
SYN_CONFIG_F[9:0]
D[9:0]
DESCRIPTION
Fractional divide ratio LSBs.
0000000000 = Default
Table 14. Main Address 18 (A[4:0] = 10010, Main Address 0 D0 = 0)
BIT NAME
BIT LOCATION
(D0 = LSB)
RESERVED
D[9:8]
Reserved bits—set to default.
D[7:0]
Crystal oscillator frequency tuning.
00000000 = Min frequency
10000000 = Default
11111111 = Max frequency
XTAL_TUNE[7:0]
DESCRIPTION
______________________________________________________________________________________ 31
MAX2851
Table 10. Main Address 14 (A[4:0] = 01110, Main Address 0 D0 = 0
MAX2851
5GHz, 5-Channel MIMO Receiver
Table 15. Main Address 19 (A[4:0] = 10011, Main Address 0 D0 = 0)
BIT NAME
BIT LOCATION
(D0 = LSB)
RESERVED
D[9:8]
DESCRIPTION
Reserved bits—set to default.
VAS_RELOCK_SEL
D7
VAS relock select.
0 = Start at sub-band selected by VAS_SPI[5:0] (Main address 19
D5:D0) (default)
1 = Start at current sub-band
VAS_MODE
D6
VCO sub-band select.
0 = By VAS_SPI[5:0] (Main address 19 D[5:0])
1 = By on-chip VCO autoselect (VAS) (default)
D[5:0]
VCO autoselect sub-band input. Select VCO subband when VAS_
MODE (Main address 19 D6) = 0. Select initial VCO sub-band for autoacquisition when VAS_MODE = 1.
000000 = Min frequency sub-band
…
011111 = Default
…
111111 = Max frequency sub-band
VAS_ADC[2:0]
(Readback Only)
D[8:6]
Read VCO autoselect tune voltage ADC output. Active when VAS_
VCO_READ (Main address 27 D5) = 1.
000 = Lower than lock range and at risk of unlock
001 = Lower than acquisition range and maintain lock
010 or 101 = Within acquisition range and maintain lock
110 = Higher than acquisition range and maintain lock
111 = Higher than lock range and at risk of unlock
VCO_BAND[5:0]
(Readback Only)
D[5:0]
Read the current acquired VCO sub-band by VCO autoselect. Active
when VAS_VCO_READ (Main address 27 D5) = 1.
VAS_SPI[5:0]
Table 16. Main Address 21 (A[4:0] = 10101, Main Address 0 D0 = 0)
BIT NAME
BIT LOCATION
(D0 = LSB)
RESERVED
D[9:8], D[4:0]
DIE_ID[2:0]
(Readback Only)
D[7:5]
DESCRIPTION
Reserved bits—set to default.
Read revision ID at Main address 21 D[7:5].
Active when DIE_ID_READ (Main address 27 D9) = 1.
000 = Pass1
001 = Pass2
…
32 �������������������������������������������������������������������������������������
5GHz, 5-Channel MIMO Receiver
BIT NAME
BIT LOCATION
(D0 = LSB)
DIE_ID_READ
D9
RESERVED
D[8:6], D[4:0]
VAS_VCO_READ
D5
DESCRIPTION
Die ID readback select.
0 = Main address 21 D[9:0] reads its own values (default)
1 = Main address 21 D[7:5] reads revision ID
Reserved bits—set to default.
VAS ADC and VCO sub-band readback select.
0 = Main address 19 D[9:0] reads its own values (default)
1 = Main address 19 D[8:6] reads VAS_ADC[2:0]; Main address 19
D[5:0] reads VCO_BAND[5:0]
Table 18. Main Address 28 (A[4:0] = 11100, Main Address 0 D0 = 0)
BIT NAME
BIT LOCATION
(D0 = LSB)
RESERVED
D[9:4]
Reserved bits—set to default.
D[3:0]
PA_BIAS turn-on delay.
0000 = 0Fs
0001 = 0Fs
0010 = 0.5Fs
0011 = 1.0Fs (default)
…
1111 = 7.0Fs
Only default is tested; contact factory for test coverage.
PA_BIAS_DLY[3:0]
DESCRIPTION
______________________________________________________________________________________ 33
MAX2851
Table 17. Main Address 27 (A[4:0] = 11011, Main Address 0 D0 = 0)
MAX2851
5GHz, 5-Channel MIMO Receiver
Table 19. Local Address 4 (A[4:0] = 00100, Main Address 0 D0 = 1)
BIT NAME
BIT LOCATION
(D0 = LSB)
DESCRIPTION
RFDET_MUX_SEL[2:0]
D[9:7]
RF RSSI channel selection.
000 = Rx1
001 = Rx2
010 = Rx3
011 = Rx4
100 = Rx5
101 = Do not use
110 = Do not use
111 = Not selected (default)
RESERVED
D[6:0]
Reserved bits—set to default.
Table 20. Local Address 27 (A[4:0] = 11011, Main Address 0 D0 = 1)
BIT NAME
BIT LOCATION
(D0 = LSB)
RESERVED
D[9:3]
TX_AMD_BB_GAIN
D2
TX_AMD_RF_GAIN
D[1:0]
DESCRIPTION
Reserved bits—set to default.
Tx calibration AM detector baseband gain.
0 = Minimum gain (default)
1 = Minimum gain + 5dB
Tx calibration AM detector RF gain.
00 = Minimum gain (default)
01 = Minimum gain + 14dB rise at output
1x = Minimum gain + 28dB rise at output
34 �������������������������������������������������������������������������������������
5GHz, 5-Channel MIMO Receiver
RXRF1
INPUT
40MHz
XTAL
22pF
1:2
1nF
6.6pF
+
GND
68
67
66
65
64
63
62
61
60
59
58
VCC_LNA2
56
55
54
53
1
CRYSTAL
OSCILLATOR/
BUFFER
RSSI MAX
LPF1/Q1
2
52
51
50
CLKOUT
CLKOUT2
1nF
1:2
RXRF2-
TXRFQ
3
49
BB PA_DET
RSSI
RF
RSSI
RXRF2+
LNA2
4
22pF
PHASE-LOCKED
LOOP
LPF1/Q2
VCC_MXR1
LNA1-5 LPF1/Q1-5
5
1nF
RXRF3-
RXRF3+
DOUT
VCC_DIG
0.1µF
47
46
6
1nF
1:2
48
TXRFQ
VCC_LNA3
RXRF3
INPUT
VCC_XTAL
XTAL
XTAL_CAP
RSSI
RXBBI2+
RXBBI257
LNA1
RXRF2
INPUT
1.0µF
39pF
RXBBQ2+
RXBBQ2-
VCC_BB1
RXBBI1+
RXBBI1-
RXBBQ1+
0.1µF
RXBBQ1-
VCC_LNA1
RXRF1+
RXRF1-
ENABLE
1nF
CPOUT-
CPOUT+
380I
PLL LOOP FILTER
2.2nF
33pF
380I
LNA3
7
45
LPF1/Q3
8
MAX2851
TXRFQ
44
GND_VCO
BYP_VCO
1µF
22pF
VCC_MXR2
90˚
43
9
1nF
10
RXRF4-
RXRF4+
42
LNA4
47pF
1:2
1nF
0˚
PA_DET
RXRF4
INPUT
VCC_VCO
LPF1/Q4
41
11
TXRFQ
12
40
TXRFQ
0˚
AM DETECTOR
90˚
22pF
VCC_LNA4
13
39
RXBBQ3-
RXBBQ3+
RXBBI3-
RXBBI3+
1nF
VCC_UCX
PA_BIAS
0.75pF
AMD
14
DOUT
1:2
TXRF
OUTPUT
TXRF+
SERIAL
INTERFACE
38
37
15
DIN
SCLK
2.2nH
LNA5
16
36
LPF1/Q5
AMD
17
35
CS
RXBBQ4-
TXRFQ
32
33
34
RXBBQ4+
31
RXBBI4-
30
RXBBI4+
29
TXBBQ-
28
TXBBQ+
27
TXBBI-
26
TXBBI+
25
RXBBQ5-
24
RXBBQ5+
23
RXBBI5-
22
RXBBI5+
21
GND
VCC_UCX
1nF
20
RXRF5+
19
VCC_LNA5
18
RXRF5-
VCC_PA_BIAS
1nF
VCC_BB2
TXRF1nF
0.1µF
1nF
1:2
22pF
RXRF5
INPUT
______________________________________________________________________________________ 35
MAX2851
Typical Operating Circuit
MAX2851
5GHz, 5-Channel MIMO Receiver
Chip Information
PROCESS: BiCMOS
Package Information
For the latest package outline information and land patterns,
go to www.maxim-ic.com/packages. Note that a “+”, “#”, or
“-” in the package code indicates RoHS status only. Package
drawings may show a different suffix character, but the drawing
pertains to the package regardless of RoHS status.
PACKAGE TYPE
PACKAGE CODE
Document No.
68 TQFN-EP
T6800+2
21-0142
36 �������������������������������������������������������������������������������������
5GHz, 5-Channel MIMO Receiver
REVISION
NUMBER
REVISION
DATE
0
1/10
Initial release
1
3/10
Modified EC table to support single-pass room test flow
DESCRIPTION
PAGES
CHANGED
—
2, 3, 5, 6–9
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
© 2010
Maxim Integrated Products 37
Maxim is a registered trademark of Maxim Integrated Products, Inc.
MAX2851
Revision History
Mouser Electronics
Authorized Distributor
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