MAXIM MAX3640EVKIT

19-1732; Rev 0; 5/00
MAX3640 Evaluation Kit
The MAX3640 evaluation kit (EV kit) is an assembled
surface-mount demonstration board that provides easy
evaluation of the MAX3640 622Mbps low-voltage differential signal (LVDS), dual 4:2 asynchronous crosspoint
switch. The board includes an extra transmission line
for characterization purposes.
The MAX3640 EV kit operates from a single +3.3V power
supply and includes all external components necessary
to interface with the LVDS inputs and outputs.
The LVDS inputs (DIA1–DIA4 and DIB1–DIB4) are internally terminated with 100Ω differential input resistance
and therefore require no external termination. Ensure
that LVDS devices driving these inputs are not redundantly terminated. The LVDS outputs (DOA1–DOA4 and
DOB1–DOB4) require a differential termination of 100Ω
between the complementary outputs.
Connecting LVDS Outputs to
50Ω Oscilloscope Inputs
To monitor LVDS signals with 50Ω oscilloscope inputs,
leave the coupling capacitors in series with the outputs
and remove the differential load resistors (see R1–R8 in
the Component List). If you are observing only one output with a 50Ω probe, balance the other output with a
50Ω terminator to ground.
Connecting LVDS Outputs to HighImpedance Oscilloscope Inputs
To monitor LVDS signals with high-impedance oscilloscope inputs, be sure the 100Ω differential load resistors between the differential outputs are installed (see
R1–R8 in the Component List).
Layout Consideration
All relative input and output data lines have equal
lengths to minimize channel-to-channel skew. The
transmission lines all have 100Ω differential characteristic impedance between the complementary signal lines.
Jumpers
Jumpers JU1–JU4 allow the SEL1–SEL4 pins to be
attached to VCC or GND. These pins set up the allocation of the input channels to the output channels.
Jumpers JU6, JU7, and JU8 allow IN_SEL, ENA, and
ENB to be attached to VCC or GND. Refer to Table 1 in
the MAX3640 data sheet for more information on these
pins.
Features
♦ +3.3V Single Supply
♦ Includes Transmission Line for Characterization
♦ Fully Assembled and Tested Surface-Mount
Board
Ordering Information
PART
TEMP. RANGE
MAX3640EVKIT
0°C to +85°C
IC PACKAGE
48 TQFP
Component Suppliers
SUPPLIER
PHONE
FAX
AVX
803-946-0690
803-626-3123
Digi-Key
218-681-6674
218-681-3380
Murata
814-237-1431
814-238-0490
Note: Please indicate that you are using the MAX3640 when
contacting these component suppliers.
Component List
DESIGNATION
QTY
DESCRIPTION
C1−C20
20
0.01µF ±10%, 16V min X7R type
ceramic capacitors
C21, C22
2
10µF ±10%, 16V min tantalum
capacitors
J1–J4, J9–J24
—
Not installed
J5−J8, J25−J32
12
SMA connectors, PC mount
Digi-Key J500-ND
J33, J34
2
Test points
Digi-Key 5000K-ND
JU1−JU4, JU6,
JU7, JU8
7
1×3 headers (0.1in centers)
Digi-Key S1012-36-ND
R1−R8
8
100Ω ±1% resistors (0603)
R9−R15
7
1kΩ ±5% resistors (0603)
U1
1
MAX3640UCM (48-pin TQFP)
None
1
MAX3640 data sheet
None
1
MAX3640 EV kit data sheet
None
1
MAX3640 PC board (Rev B)
________________________________________________________________ Maxim Integrated Products
1
For free samples and the latest literature, visit www.maxim-ic.com or phone 1-800-998-8800.
For small orders, phone 1-800-835-8769.
Evaluates: MAX3640
General Description
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J36
SMA
J35
SMA
2
2
J34
J8
SMA
J7
SMA
J6
SMA
J5
SMA
J4
SMA
J3
SMA
J2
SMA
J1
SMA
1
1
2
2
2
2
2
2
2
2
C21
10µF
1 DIB2N
1 DIB2P
1 DIB1N
1 DIB1P
1 DIA4N
1 DIA4P
1 DIA3N
1 DIA3P
+
1
1
2
2
+
J9
SMA
VCC
1
2
C2
0.01µF
C1
0.01µF
DIA2N
J10
SMA
1
2
VCC
1
J38
SMA
J37
SMA
C22
10µF
1
J11
SMA
1
2
12
11
10
9
8
7
6
5
4
3
2
1
DIA2P
DIA1N
VCC
VCC
GND
J12
SMA
1
2
DIB2-
DIB2+
DIB1-
DIB1+
DIA4-
DIA4+
DIA3-
DIA3+
GND
1
2
48
13
J33
DIA4P
J27
SMA
DIA4N
1
2
VCC
DIA1P
J28
SMA
47
JU6
VCC
R12
1k
JU1
R9
1k
VCC
U1
R10
1k
VCC
JU2
VCC
R11
1k
JU7
MAX3640
R13
1k
DIA2-
46
DIB3+
14
DIA2+
15
DIB3-
45
DIA116
DIB4+
44
DIA1+
DIB4-
2
18
IN_SEL
43
ENA
SEL2
VCC
VCC
R14
1k
JU8
DOA1P
C17
0.01µF
JU3
1
VCC
GND
VCC
VCC
GND
DOB2-
DOB2+
DOB1-
DOB1+
DOA4-
DOA4+
DOA3-
DOA3+
R15
1k
JU4
2
1
25
26
27
28
29
30
31
32
33
34
35
36
C4
0.01µF
C16
0.01µF
C5
0.01µF
R1
100Ω
2
1
VCC
2
C7
0.01µF
J15
SMA
1
2
R2
100Ω
J32
SMA
DOA2N
R8
100Ω
C20
0.01µF
2
C6
0.01µF
J14
SMA
1
C3
0.01µF
2
1
J31
SMA
DOA2P
VCC
J13
SMA
1
2
C19
0.01µF
J30
SMA
DOA1N
R7
100Ω
C18
0.01µF
J29
SMA
37
J26
SMA
19
SEL1
17
42
ENB
SEL3
41
VCC
SEL4
20
40
39
DOA1+
DOB421
DOA1DOB4+
38
DOA2+
DOB323
DOA2DOB3+
24
2
DOB4N
J25
SMA
DOB4P
VCC
DIB3P
Figure 1. MAX3640 EV Kit Schematic
DIB3N
DOB3N
2
22
2
DOB3P
J16
SMA
1
R3
100Ω
R4
100Ω
R5
100Ω
R6
100Ω
DOB2N
DOB2P
DOB1N
DOB1P
DOA4N
DOA4P
DOA3N
DOA3P
C8
0.01µF
C9
0.01µF
C10
0.01µF
C11
0.01µF
C12
0.01µF
C13
0.01µF
C14
0.01µF
C15
0.01µF
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
2
J17
SMA
J18
SMA
J19
SMA
J20
SMA
J21
SMA
J22
SMA
J23
SMA
J24
SMA
Evaluates: MAX3640
MAX3640 Evaluation Kit
MAX3640 Evaluation Kit
Evaluates: MAX3640
Figure 2. MAX3640 EV Kit Component Placement Guide—Top Silkscreen
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3
Evaluates: MAX3640
MAX3640 Evaluation Kit
Figure 3. MAX3640 EV Kit PC Board Layout—Component Side
4
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MAX3640 Evaluation Kit
Evaluates: MAX3640
Figure 4. MAX3640 EV Kit PC Board Layout—Ground Plane
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5
Evaluates: MAX3640
MAX3640 Evaluation Kit
Figure 5. MAX3640 EV Kit PC Board Layout—Power Plane
6
_______________________________________________________________________________________
MAX3640 Evaluation Kit
Evaluates: MAX3640
Figure 6. MAX3640 EV Kit PC Board Layout—Solder Side
_______________________________________________________________________________________
7
Evaluates: MAX3640
MAX3640 Evaluation Kit
NOTES
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.
8 _____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600
© 2000 Maxim Integrated Products
Printed USA
is a registered trademark of Maxim Integrated Products.