MAX2023EVKIT 查看數據表(PDF) - Maxim Integrated
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MAX2023EVKIT Datasheet PDF : 8 Pages
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MAX2023 Evaluation Kit
Component Suppliers
SUPPLIER
PHONE
WEBSITE
Johnson
507-833-8822 www.johnsoncomponents.com
M/A-COM 800-366-2266 www.macom.com
Murata
770-436-1300 www.murata.com
Note: Indicate that you are using the MAX2023 when contacting
these component suppliers.
Quick Start
The MAX2023 EV kit is fully assembled and factory test-
ed. Follow the instructions in the Connections and
Setup section for proper device evaluation as an
upconverter.
Test Equipment Required
This section lists the recommended test equipment to
verify the operation of the MAX2023 as an upconverter.
It is intended as a guide only, and substitutions may be
possible.
• One DC supply capable of delivering +5.0V and
350mA
• One low-noise RF signal generator capable of deliv-
ering 10dBm of output power in the 1GHz to 3GHz
frequency range (i.e., HP 8648)
• One I/Q generator capable of producing two differ-
ential 1MHz sine waves, 90° out-of-phase with each
other, with a 2.7VP-P differential amplitude
• One quad-channel oscilloscope with a 100MHz
minimum bandwidth
• Low-capacitance oscilloscope probes
• One RF spectrum analyzer with a 100kHz to 3GHz
frequency range (HP 8561E)
• One RF power meter (HP 437B)
• One power sensor (HP 8482A)
Connections and Setup
This section provides a step-by-step guide to testing the
basic functionality of the EV kit as an upconverter. As a
general precaution to prevent damaging the outputs by
driving high VSWR loads, do not turn on DC power or
RF signal generators until all connections are made.
This upconverter procedure is general for operation
with an I/Q baseband input signal at 1MHz. Choose the
test frequency based on the particular system’s fre-
quency plan and adjust the following procedure
accordingly. See Figure 2 for the test setup diagram.
1) Calibrate the power meter. For safety margin, use a
power sensor rated to at least +20dBm, or use
padding to protect the power head as necessary.
2) Connect a 3dB pad to the DUT end of the RF signal
generators’ SMA cable. This padding improves
VSWR and reduces the errors due to mismatch.
3) Use the power meter to set the RF signal generators
according to the following:
• LO signal source: 0dBm into DUT at 1850MHz
(this is approximately 3dBm before the 3dB pad).
Use an oscilloscope to calibrate the baseband I/Q
differential inputs to the following:
• Use a signal source where I+, I-, Q+, and Q-
are all 50Ω single-ended outputs. Load the I+/I-
ports and Q+/Q- ports with 50Ω differential
loads. Set the voltage across the 50Ω differen-
tial loads to be 2.7VP-P differential. Remove the
50Ω differential loads. Note that the DUT’s I+/I-
and Q+/Q- port impedances will provide the
differential loading in Step 10.
4) Disable the signal generator outputs.
5) Connect the I/Q source to the differential I/Q ports.
6) Connect the LO source to the EV kit LO input.
7) Measure the loss in the 3dB pad and cable that will be
connected to the RF port. Losses are frequency
dependent, so test this at 1850MHz (the RF frequen-
cy). Use this loss as an offset in all output
power/gain calculations.
8) Connect this 3dB pad to the EV kit’s RF port con-
nector and connect a cable from the pad to the
spectrum analyzer.
9) Set DC supply to +5.0V, and set a current limit
around 350mA, if possible. Disable the output volt-
age and connect the supply to the EV kit (through
an ammeter, if desired). Enable the supply.
Readjust the supply to get +5.0V at the EV kit. A
voltage drop occurs across the ammeter when the
device is drawing current.
10) Enable the LO and the I/Q sources.
Testing the Direct Upconverter
Adjust the center and span of the spectrum analyzer to
1850MHz and 5MHz, respectively. The LO leakage
appears at 1850MHz and there are two sidebands at
1849MHz and 1851MHz (LSB and USB). One of the
sidebands is the selected RF signal, while the second is
the image. Depending on whether the Q channel is 90
degrees advanced or 90 degrees delayed from the
I channel determines which sideband is selected and
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