Evaluates: MAX3645 MAX3645 Evaluation Kit _______________ General Description

19-3074; Rev 0; 11/03
MAX3645 Evaluation Kit
___________________________ Features
The MAX3645 evaluation kit (EV kit) simplifies evaluation
of the MAX3645 limiting amplifier. The EV kit allows easy
programming of the loss-of-signal (LOS) threshold and
provides layout options for alternate output terminations.
♦
Easy +2.97V to +5.5V Electrical Evaluation
♦
Fully Assembled and Tested
♦
Easy LOS Threshold Programming
____________________Component List
♦
Designed for 50Ω
Ω Test Interfaces
DESIGNATION
QTY
♦
Allows Alternate Output Terminations
C1, C2
2
C3, C4
2
C5–C9,
C12, C13
7
C11
1
J1, J2, J5, J6
4
J3, J4, J9
3
JU1
1
JU2–JU4
3
JU1–JU4
4
L1, L2
2
R1, R2
2
R3
1
R4
R5
R6
R8, R9
R13, R15
R19, R21
SB1
TP1–TP3,
TP9–TP11
1
1
1
2
2
2
1
U1
1
None
1
Z1, Z2
2
6
DESCRIPTION
33µF ±10% tantalum capacitors
AVX TAJB336K010R
3.3µF ±10% ceramic capacitors
(0805)
0.1µF ±10% ceramic capacitors
Murata GRP155R61A104K
1000pF ±10% ceramic capacitor
Murata GRP155R71H102K
SMA connectors (edge mount)
EF Johnson 142-0701-801
Test points
Digi-Key 5000K-ND
2×5-pin header block, 0.1in centers
Digi-Key S1012-36-ND
2-pin headers, 0.1in centers
Shunts
Digi-Key S9000-ND
1.2µH inductors
Coilcraft 1008CS-122XJBC
84.5Ω ±1% resistors (0402)
5kΩ variable resistor
Digi-Key 3296W-1-502-ND
100Ω ±1% resistor (0402)
1kΩ ±1% resistor (0402)
2kΩ ±1% resistor (0402)
49.9Ω ±1% resistors (0402)
49.9Ω ±1% resistors (0805)
Not installed
Solder bridge, open
Test points
Digi-Key 5000K-ND
MAX3645ESE 16-pin SOIC
(MAX3645ESEEVKIT)
MAX3645EEE 16-pin QSOP
(MAX3645EEEEVKIT)
MAX3645ESE EV kit circuit board,
Rev A (MAX3645ESEEVKIT)
MAX3645EEE EV kit circuit board,
Rev A (MAX3645EEEEVKIT)
0Ω resistors (0402)
______________ Ordering Information
PART
MAX3645ESEEVKIT
MAX3645EEEEVKIT
TEMP RANGE
-40°C to +85°C
-40°C to +85°C
IC PACKAGE
16 SOIC
16 QSOP
______________ Component Suppliers
SUPPLIER
AVX
PHONE
FAX
843-448-9411
843-626-3123
Coilcraft
847-639-6400
847-639-1469
Digi-Key
800-344-4539
218-681-3380
Murata
770-436-1300
770-436-3030
Note: Please indicate that you are using the MAX3645 when
ordering from these suppliers.
________________________ Quick Start
1)
Place a shunt on JU3 and remove shunts from JU2
and JU4.
2)
Set the threshold resistor (RTH) to 100Ω by placing
a shunt at position 4 of JU1.
3)
Connect a +2V power supply to J3 (VCC), a –1.3V
power supply to J9 (VEE), and the power supply
ground to J4 (GND).
4)
Apply a 155Mbps differential signal (10mVP-P)
between SMA connectors J1 (DIN+) and J2 (DIN-).
5)
Connect an oscilloscope with 50Ω terminations to
SMA connectors J5 (DOUT-) and J6 (DOUT+).
(To avoid overloading the oscilloscope, use 20dB of
attenuation between the outputs and the
oscilloscope inputs.)
6)
Monitor LOS by connecting a voltage meter to TP9.
________________________________________________________________ Maxim Integrated Products 1
For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at
1-888-629-4642, or visit Maxim’s website at www.maxim-ic.com.
www.BDTIC.com/maxim
Evaluates: MAX3645
_______________ General Description
Evaluates: MAX3645
MAX3645 Evaluation Kit
______________ Detailed Description
The MAX3645 EV kit is a fully assembled and factory
tested demonstration board that enables testing of all
MAX3645 functions.
Setting the LOS Threshold Resistor
Jumper bank JU1 is used to select the value of the
threshold resistor (RTH). Position 1 connects to the
potentiometer R3 that can be set to any resistance
value between 0Ω and 5kΩ. Positions 2–5 provide fixed
resistance settings of 2kΩ, 1kΩ, 100Ω, 0Ω respectively.
Automatic Squelch
Placing a shunt on JU3 enables automatic squelch. This
jumper connects the LOS output directly to the DIS
input. If the data input signal drops below the LOS
assert level the outputs are automatically disabled.
When the data input signal returns above the LOS
deassert level the outputs are enabled.
DC-Offset Correction
The DC offset correction is disabled when a shunt is on
JU2. For normal operation, leave JU2 open.
Data Input Terminations
The EV kit has a 100Ω differential input termination. If
the input is driven single-ended, terminate both sides of
the input with 50Ω to ground by shorting solder bridge
SB1.
PECL Output Terminations
The outputs of the MAX3645 are PECL compatible and
any standard DC or AC termination can be used. Figure
1 illustrates typical DC and AC terminations.
When the data outputs are AC-coupled a shunt can be
put on JU4 to short VEE to ground. Otherwise JU4
should be left open.
To avoid overloading the oscilloscope, use 20dB of
attenuation between the data outputs and the
oscilloscope inputs.
2 _________________________________________________________________________________________
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MAX3645 Evaluation Kit
V CC
DOUT+
20dB
R21
OPEN
DOUT-
MAX3645ESE
MAX3645EEE
V EE
Z O = 50 Ω
Z2
0Ω
50 Ω
20dB
Z O = 50 Ω
R19
OPEN
LOS
LOS
OSCILLOSCOPE
Z1
0Ω
50 Ω
R15
50 Ω
R13
50 Ω
-0.97V TO -3.5V
AC-COUPLED PECL TERMINATION
+3.3V OR +5V
V CC
DOUT+
20dB
R21
DOUT-
MAX3645ESE
MAX3645EEE
Z O = 50 Ω
Z2
0.1 µ F
50 Ω
20dB
Z O = 50 Ω
R19
50 Ω
LOS
R15
LOS
V EE
OSCILLOSCOPE
Z1
0.1 µ F
SUPPLY
R13, R15,
R19, R21
3.3V
150 Ω
5V
270 Ω
R13
0V
Figure 1. PECL Output Terminations
_________________________________________________________________________________________ 3
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Evaluates: MAX3645
DC-COUPLED PECL TERMINATION (DEFAULT)
+2V
Evaluates: MAX3645
MAX3645 Evaluation Kit
VCC
L1
1.2 µ H
VCC
TP1
J3
GND
R2
84.5 Ω
C1
33 µ F
C3
3.3 µ F
C2
33 µ F
C4
3.3 µ F
R3
5k Ω
JU1
TP2
1
J4
VEE
L2
1.2 µ H
JU4
R6
2k Ω
2
TP3
R5
1k Ω
J9
3
R1
84.5 Ω
VEE
R4
100 Ω
4
1
JU2
C5
0.1 µ F
DIN+
SB1
OPEN
R8
49.9 Ω
R9
49.9 Ω
C8
0.1 µ F
VEE
C9
0.1 µ F
DINVCC
5
C11
1nF
N.C.
CAZ1
15
VCC
3
4
5
C7
VCC
0.1 µ F
J2
16
VEE
2
C6
0.1 µ F
J1
TH
CAZ2
6
7
8
V CCE
GNDA
DIN+
DIN-
U1
MAX3645ESE
MAX3645EEE
DOUT+
DOUT-
GNDE
V CCA
CSD
LOS
DIS
LOS
14
C12
0.1 µ F
12
10
J6
Z2
0Ω
J5
DOUT+
R21
OPEN
13
R19
OPEN
C13
0.1 µ F
11
Z1
0Ω
TP10
VEE
R15
49.9 Ω
9
TP9
JU3
TP11
R13
49.9 Ω
Figure 2. MAX3645 EV Kit Schematic
4 _________________________________________________________________________________________
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DOUT-
MAX3645 Evaluation Kit
Evaluates: MAX3645
Figure 3. MAX3645ESE EV Kit Component Placement Guide—
Component Side
Figure 4. MAX3645ESE EV Kit PC Board Layout—Component
Side
Figure 5. MAX3645ESE EV Kit PC Board Layout—Ground
Plane
Figure 6. MAX3645ESE EV Kit PC Board Layout—Power
Plane
_________________________________________________________________________________________ 5
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Evaluates: MAX3645
MAX3645 Evaluation Kit
Figure 7. MAX3645ESE EV Kit PC Board Layout—Solder
Side
Figure 8. MAX3645EEE EV Kit Component Placement Guide—
Component Side
Figure 9. MAX3645EEE EV Kit PC Board Layout—
Component Side
Figure 10. MAX3645EEE EV Kit PC Board Layout—Ground
Plane
6 _________________________________________________________________________________________
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MAX3645 Evaluation Kit
Evaluates: MAX3645
Figure11. MAX3645EEE EV Kit PC Board Layout—Power
Plane
Figure12. MAX3645EEE EV Kit PC Board Layout—Solder
Side
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____________________7
 2003 Maxim Integrated Products
Printed USA
is a registered trademark of Maxim Integrated Products
www.BDTIC.com/maxim