MAX9218EVKIT+ Maxim Integrated Products, MAX9218EVKIT+ Datasheet - Page 2
MAX9218EVKIT+
Manufacturer Part Number
MAX9218EVKIT+
Description
KIT PCB EVALUATION FOR MAX9218
Manufacturer
Maxim Integrated Products
Specifications of MAX9218EVKIT+
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
MAX9217/MAX9218 Evaluation Kit
Note: Indicate that you are using the MAX9217 and the MAX9218 when contacting these component suppliers.
• MAX9217/MAX9218 EV kit (cable included)
• Two 3.3V DC power supplies
• Digital data generator (e.g., HP/Agilent 16522A)
• Two low-phase-noise clock generators (e.g., HP/
• Logic analyzer or data-acquisition system (e.g., HP/
• High-performance oscilloscope (e.g., HP/Agilent
The MAX9217/MAX9218 EV kit is fully assembled and
tested. Follow the steps below to verify board operation.
Caution:_Do_not_turn_on_the_power_supplies_or_signal_
sources_until_all_connections_are_completed.
1) Verify that all jumpers (JU1–JU21) are in their default
2) Connect the first 3.3V power supply across the
3) Connect the second 3.3V power supply across the
Table_1._MAX9217/MAX9218_EV_Kit_Jumper_Descriptions_(JU1−JU21)
2_ _ _______________________________________________________________________________________
MD Elektronik GmbH
Murata Electronics North America, Inc.
Rosenberger Hochfrequenztechnik GmbH
JUMPER
Agilent 8133A)
Agilent 16500C)
DSO80304B; see the Pseudo-Random Bit Sequence
(PRBS) Mode section)
positions, as shown in Table 1.
DVCC1 and GND1 pads of the EV kit.
DVCC2 and GND2 pads of the EV kit.
JU1
MAX9218 falling latch
MAX9218 rising latch
MAX9218 latch edge
SUPPLIER
FUNCTION
edge
edge
Required Equipment
POSITION
Quick Start
SHUNT_
1-2*
1-3
1-4
Procedure
Connects the R/F pin of the MAX9218 to GND2 for falling output latch
edge
Connects the R/F pin of the MAX9218 to header H4-9
Connects the R/F pin of the MAX9218 to DVCC2 for rising output latch
edge
011-49-86-38-604-0
011-49-86 84-18-0
770-436-1300
PHONE
4) Connect the GND1 and GND2 pads together.
5) Connect the Rosenberger cable from the P1 to the P2
6) Connect the data generator to the H6–H9 connectors
7) Connect the first clock generator to the P4 SMA con-
8) Connect the second clock generator to the P3 SMA
9) Connect the logic analyzer or data-acquisition system
10) Turn on the power supplies.
11) Enable the clock generators.
12) Enable the data generator.
13) Enable the logic analyzer or data-acquisition system
connector of the EV kit.
and set to generate 27-bit parallel data at LVCMOS/
LVTTL levels. See Table 2 for input bit locations.
nector and set its output frequency between 3MHz
and 35MHz (see Table 3 for PCLK_IN location).
connector and set to within Q2% of the MAX9217 seri-
alizer PCLK_IN frequency (see Table 3 for REFCLK
location).
to connectors H1 and H2, as shown in Table 4.
and begin sampling data.
DESCRIPTION
www.md-elektronik-gmbh.de
www.murata-northamerica.com
www.rosenberger.de
Component Suppliers
WEBSITE
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