MAXIM MAX3741EVKIT

19-2695; Rev 0; 12/02
MAX3741 Evaluation Kit
Features
♦ Fully Assembled and Tested
♦ Single +3.3V Power-Supply Operation
♦ Allows Optical and Electrical Evaluation
Component Suppliers
PHONE
FAX
AVX
SUPPLIER
803-946-0690
803-626-3123
Coilcraft
847-639-6400
847-639-1469
Murata
814-237-1431
814-238-0490
Zetex
516-543-7100
516-864-7630
Ordering Information
PART
TEMP RANGE
MAX3741EVKIT -40°C to +85°C
IC PACKAGE
16 Thin QFN (3mm x 3mm)
Note: When contacting these suppliers, please indicate that
you are using the MAX3741.
Component List
DESIGNATION
QTY
DESCRIPTION
7
0.1µF ±10% ceramic capacitors
(0402)
C3–C7
5
0.01µF ±10% ceramic capacitors
(0402)
C8, C11
2
10µF ±10% tantalum capacitors,
case B
GND, VCC,
TP1–TP7, TP9,
TP10
11
Test points
C1, C2, C9, C10,
C12, C13, C14
JU1
1
2-pin header, 0.1in center
J1, J2, J3, J6–J9
7
SMA connectors, tab contacts
L1
1
1µH inductor (805)
L2
1
600Ω ferrite bead (0603)
Murata BLM18HD102SN1B
L3
1
600Ω ferrite bead (0603)*
Murata BLM18HD102SN1B
R1
1
10kΩ potentiometer
R2, R3, R7, R8
4
Open
DESIGNATION
QTY
R4
1
DESCRIPTION
20kΩ potentiometer
R5, R9
2
49.9Ω resistors (0402)
R6
1
50kΩ potentiometer
R10
1
350Ω resistor (0402)
R11
1
120Ω resistor (0402)
R12
1
0Ω resistor (0402)*
U1
1
MAX3741ETE
None
1
Shunt
None
1
MAX3741 EV board
None
1
MAX3741 data sheet
*Not populated, but can be installed for optical evaluation.
Quick Start
Electrical Evaluation
To ensure proper operation in the electrical configuration, set up the evaluation board as follows:
1) To enable the outputs, connect TX_DISABLE to
GND by placing a shunt on JU1.
Note: When performing the following resistance
checks, autoranging DMMs can forward bias the
on-chip ESD protection and cause inaccurate measurements. To avoid this problem, manually set the
DMM to a high range.
________________________________________________________________ Maxim Integrated Products
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.
1
Evaluates: MAX3741
General Description
The MAX3741 evaluation kit (EV kit) is an assembled
demonstration board that provides complete optical
and electrical evaluation of the MAX3741 compact
VCSEL driver.
The EV kit has an electrical test section and an optical
test section. Electrically, the output of the evaluation
board is interfaced to an SMA connector, which can be
connected to a 50Ω terminated oscilloscope. Optically,
the board can be configured to interface with a common-cathode VCSEL.
Evaluates: MAX3741
MAX3741 Evaluation Kit
2) Adjust R6, the RBIASSET potentiometer, for 1.7kΩ
resistance between TP3 (BIASSET) and ground.
3) Adjust R4, the RPEAKSET potentiometer, for 20kΩ
resistance between TP2 (PEAKSET) and ground to
disable peaking.
4) Adjust R1, the RMODSET potentiometer, for 10kΩ
resistance between TP1 (MODSET) and ground.
5) Apply a differential input signal (250mV P-P to
2200mVP-P) between SMA connectors J1 and J2
(IN+ and IN-).
6) Attach a high-speed oscilloscope with a 50Ω input
to SMA connector J3 (OUT).
7) Connect a +3.3V supply between VCC and GND.
Adjust the power supply until the voltage between
TP10 and ground is +3.3V.
8) Adjust R6 (RBIASSET) until the desired laser bias
current is achieved.
V
IBIAS = TP6
120Ω
9) The BIAS current can be monitored at TP5
(VBIASMON) using the equation below:
IBIAS =
9 × VBIASMON
350Ω
10) Adjust R1 (RMODSET) until the desired laser modulation current is achieved.
IMOD =
Signal Amplitude (V)
50Ω
11) Adjust R14 (RPEAKSET) until the desired amount of
peaking is achieved.
Optical Evaluation
For optical evaluation of the MAX3741, configure the
evaluation kit as follows:
1) Remove component R11.
2) Install a 0Ω resistor at R12 and install a 600Ω ferrite
bead at L3 (Murata BLM18HD102SN1).
3) To enable the outputs, connect TX_DISABLE to
GND by placing a shunt on JU1.
4) Connect a common-cathode VCSEL as shown in
Figure 1. Keep the leads short to reduce reflection.
Note: When performing the following resistance
checks, autoranging DMMs can forward bias the
on-chip ESD protection and cause inaccurate mea2
surements. To avoid this problem, manually set the
DMM to a high range.
5) Adjust R6, the RBIASSET potentiometer, for 1.7kΩ
resistance between TP3 (BIASSET) and ground.
6) Adjust R4, the RPEAKSET potentiometer, for 20kΩ
resistance between TP2 (PEAKSET) and ground to
disable peaking.
7) Adjust R1, the RMODSET potentiometer, for 10kΩ
resistance between TP1 (MODSET) and ground.
8) Apply a differential input signal (250mV P-P to
2200mVP-P) between SMA connectors J1 and J2
(IN+ and IN-).
9) Attach the laser-diode fiber connector to an optical/electrical converter.
10) Connect a +3.3V supply between VCC and GND.
Adjust the power supply until the voltage between
TP10 and ground is +3.3V.
11) Adjust R6 (RBIASSET) until desired average optical
power is achieved.
12) The BIAS current can be monitored at TP5
(VBIASMON) using the equation below:
IBIAS =
9 × VBIASMON
350Ω
13) Adjust R1 (RMODSET) until the desired optical amplitude is achieved. Optical amplitude can be
observed on an oscilloscope connected to an optical/electrical converter.
14) Adjust R14 (RPEAKSET) until the desired amount of
peaking is achieved.
Adjustment and Control
Descriptions (see Quick Start)
COMPONENT
JU1
NAME
FUNCTION
Enables/disables the output
TX_DISABLE currents, install a shunt to
enable output currents
R1
RMODSET
Adjusts the laser modulation
current
R4
RPEAKSET
Adjusts the peaking for the
falling edge of the VCSEL
R6
RBIASSET
Adjusts the VCSEL bias
current
TP5
BIASMON
Monitors the bias current
_______________________________________________________________________________________
GND
J9
CALIN-
J7
CALIN+
C8
10µF
J1
IN+
C14
0.1µF
C13
0.1µF
J2
IN-
C9
0.1µF
C10
0.1µF
J8
CALOUT-
J6
CALOUT+
C2
0.1µF
C12
0.1µF
C1
0.1µF
16
C7
0.01µF
15
VCC1
R7
OPEN
NC
IN-
IN+
TP2
R3
OPEN
8
R2
OPEN
7
VCC
OUT-
OUT+
TP5
9
10
11
12
R10
350Ω
R11
120Ω
BIASMON
R4
20kΩ
TP1
6
U1
MAX3741
13
TP6
R1
10kΩ
C3
0.01µF
5
TP3
14
R6
50kΩ
TX_DISABLE
VCC1
4
3
2
1
JU1
TX_DISABLE
C11
10µF
L2
BLM18HD102SN1B
VCC
VCC
L1
1µH
GND
VCC1
VCC
MODSET
TP10
BIASSET
PEAKSET
BIAS
GND
C6
0.01µF
TP4
C5
0.01µF
R5
49.9Ω
C4
0.01µF
VCC1
R8
OPEN
R9
49.9Ω
VCC
L3
OPEN
1
2
3
4
D1
VCSEL
PHOTODIODE
TP9
R12
OPEN
J3
OUT
Evaluates: MAX3741
TP7
MAX3741 Evaluation Kit
Figure 1. MAX3741 EV Kit Schematic
_______________________________________________________________________________________
3
Evaluates: MAX3741
MAX3741 Evaluation Kit
1.0"
Figure 2. MAX3741 EV Kit Component Placement Guide—
Component Side
4
1.0"
Figure 3. MAX3741 EV Kit PC Board Layout—Component Side
_______________________________________________________________________________________
MAX3741 Evaluation Kit
Evaluates: MAX3741
1.0"
1.0"
Figure 4. MAX3741 EV Kit PC Board Layout—Ground Plane
Figure 5. MAX3741 EV Kit PC Board Layout—Power Plane
_______________________________________________________________________________________
5
Evaluates: MAX3741
MAX3741 Evaluation Kit
1.0"
Figure 6. MAX3741 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.
6 _____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600
© 2002 Maxim Integrated Products
Printed USA
is a registered trademark of Maxim Integrated Products.