MAXIM MAX4101EVKIT

19-0462; Rev 0; 12/95
MAX4100 Evaluation Kit
____________________Component List
DESIGNATION QTY
DESCRIPTION
U1
1
Maxim MAX4100ESA
C1, C6
2
10µF, 10V, 20% tantalum capacitors
AVX TAJB106M010 or
Sprague 293D106X0010B
C2, C5
2
0.1µF, 10% ceramic capacitors
Vitramon VJ1206Y104KXX
C3, C4
2
1000pF, 10% ceramic capacitors
Vitramon VJ1206Y102KXX
R1, R2
2
75Ω, 5% resistors
RF
1
24Ω, 5% resistor
IN, OUT
2
SMA connectors
None
1
High-frequency-amplifier PC board
None
1
MAX4100/MAX4101 data sheet
None
1
Shunt
J1
1
3-pin jumper
SUPPLIER
PHONE
(803) 946-0690
(603) 224-1961
(203) 268-6261
♦ 500MHz Unity-Gain Bandwidth
♦ Optional Adjustable Gain
♦ Fully Assembled and Tested
______________Ordering Information
PART
MAX4100EVKIT-SO
TEMP. RANGE
+25°C
BOARD TYPE
Surface Mount
Note: To evaluate the MAX4101, request a MAX4101ESA free
sample.
_____________________________Quick
Start
The MAX4100 EV kit is fully assembled and tested.
Follow these steps to verify board operation. Do not
turn on the power supply until all connections are
completed.
1) The circuit requires supply voltages of ±5V.
Connect these supplies to the corresponding pads
marked V+ and V-. Connect the power-supply
ground to the pad marked GND.
2) Verify that the J1 shunt is across pins 2 and 3 of the
3-pin jumper J1.
3) Apply a signal no greater than ±3.5VPK (16dBm) to
the SMA connector marked IN.
4) Connect the output marked OUT to an oscilloscope
through a terminated 75Ω cable.
5) Turn on the power supply and verify the output
signal on the oscilloscope.
_______________Detailed Description
Voltage-Gain Adjustment
______________Component Suppliers
AVX
Sprague
Vishay/Vitramon
____________________________Features
FAX
(803) 626-3123
(603) 224-1430
(203) 452-5670
The MAX4100’s gain can be adjusted with the following
minor modifications to the EV board:
1) Referring to Table 1, select the feedback (R F) and
gain-setting (RG) resistors with the desired gain.
2) Install RF and RG.
Table 1. Gain-Setting Resistors
RF
(Ω)
RG
(Ω)
SMALL-SIGNAL
BANDWIDTH (MHz)
1
24
Open
500
2
200
200
210
MAX4101
5
200
51
45
MAX4101
10
200
30
20
DEVICE
GAIN
MAX4100
MAX4101
________________________________________________________________ Maxim Integrated Products
1
For free samples & the latest literature: http://www.maxim-ic.com, or phone 1-800-998-8800
Evaluates: MAX4100/MAX4101
_______________General Description
The MAX4100 evaluation kit (EV kit) simplifies evaluation of the MAX4100 high-speed amplifier. The EV kit
circuit demonstrates the MAX4100 in the noninverting
unity-gain configuration. RF-style connectors (SMA)
and 75Ω terminating resistors are included for video
test equipment compatibility.
The EV kit comes with the MAX4100 installed. To evaluate the MAX4101, simply order a free sample
(MAX4101ESA), replace the MAX4100 with the
MAX4101 on the EV board, and change the gainsetting resistors for the desired gain. The minimum
closed-loop gain for the MAX4101 is +2V/V or -1V/V.
Evaluates: MAX4100/MAX4101
MAX4100 Evaluation Kit
Layout Considerations
V+
The MAX4100 EV kit layout has been optimized for
high-speed signals, with careful attention given to
grounding, power-supply bypassing, and signal-path
layout. The small, surface-mount, ceramic bypass
capacitors C2–C5 have been placed as close to the
MAX4100 supply pins as possible. The unused pins
have been grounded to prevent unwanted noise from
coupling into the circuit. Refer to the Layout and PowerSupply Bypassing section of the MAX4100 data sheet
for details.
Shutdown Control
The MAX4100/MAX4101 EV kit is a standard EV kit
used for many of Maxim’s high-speed op amps. As a
result, a shutdown (SHDN) function is incorporated on
the EV kit, but does not apply to the MAX4100/
MAX4101. Because the shutdown control is not applicable to the MAX4100/MAX4101, verify that a shunt is
connected to pins 2 and 3 of jumper J1.
C1
10µF, 10V
RF
24Ω
RG
OPEN
C2
0.1µF
2
C3
1000pF
7
U1
MAX4100
3
IN
OUT
6
5
R2
75Ω
4
8 1
R1
75Ω
V+
SHDN
1
2
J1
VC4
1000pF
GND
C5
0.1µF
3
C6
10µF, 10V
CAPACITORS C1, C3, C4, AND C6 ARE OPTIONAL.
Figure 1. MAX4100 EV Kit Schematic
Figure 2. MAX4100 EV Kit Component Placement Guide—
Component Side
2
Figure 3. MAX4100 EV Kit Component Placement Guide—
Solder Side
_______________________________________________________________________________________
MAX4100 Evaluation Kit
Evaluates: MAX4100/MAX4101
Figure 4. MAX4100 EV Kit PC Board Layout—Component Side
Figure 5. MAX4100 EV Kit PC Board Layout—Solder Side
V+
C1
IN
RG
RF
C2
R1
2
C3
7
OUT
U1
6
MAX4100
3
8
5
R2
4
1
VC4
GND
C5
C6
Figure 6. Inverting Schematic (for PCB Layout of Figures 7–10)*
* The Inverting Gain Configuration layouts and schematic are shown for reference only. The PC board supplied does not include the inverting configuration.
_______________________________________________________________________________________
3
Evaluates: MAX4100/MAX4101
MAX4100 Evaluation Kit
Figure 7. Inverting Gain Configuration, Component Placement
Guide—Component Side*
Figure 8. Inverting Gain Configuration, Component Placement
Guide—Solder Side*
Figure 9. Inverting Gain Configuration, PC Board Layout—
Component Side*
Figure 10. Inverting Gain Configuration, PC Board Layout—
Solder Side*
* The Inverting Gain Configuration layouts and schematic are shown for reference only. The PC board supplied does not include the inverting configuration.
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.
4 ___________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 (408) 737-7600
© 1995 Maxim Integrated Products
Printed USA
is a registered trademark of Maxim Integrated Products.