MAXIM MAX038CPP

MAX038 Evaluation Kit
The MAX038 evaluation kit (EV kit) is a high-frequency
function generator capable of producing accurate triangle/sawtooth, sine, and square/pulse waveforms up
to 10MHz, using the supplied components. Output frequency and duty cycle are easily adjusted with onboard potentiometers. Removable jumpers select sine,
square, or triangle waveforms, or fix the duty cycle at
50%. The output is buffered with a MAX442 amplifier
capable of driving a 50Ω coaxial cable. The MAX038
EV kit is fully assembled and tested.
______________Ordering Information
PART
TEMP. RANGE
BOARD TYPE
MAX038EVKIT-DIP
0°C to +70°C
Through-Hole
______________________________EV Kit
___________________________Features
♦ 325kHz to 10MHz Operation
♦ Adjustable Duty Cycle
♦ 2.5V Reference Output
♦ TTL-Compatible SYNC Output
♦ Fully Assembled and Tested
____________________Component List
DESIGNATION
U1
U2
C1
QTY
1
1
1
DESCRIPTION
MAX038CPP
MAX442CPA
82pF capacitor
C2, C3, C5, C7,
C9, C10, C11,
C12
8
0.1µF capacitors
C4, C6, C8
R1, R2
R3
R4, R5
R6
R7, R8
R9, R10, R11
R12
JU1, JU2, JU5
JU3, JU4
None
J1
3
2
1
2
1
2
3
1
3
2
5
1
4.7µF capacitors
20kΩ potentiometers
50kΩ potentiometer
10kΩ, 5% resistors
51Ω, 5% resistor
270Ω, 5% resistors
0Ω resistors
3.3kΩ, 5% resistor
2-pin headers
3-pin headers
Shunts
BNC jack
_________________________Quick Start
The MAX038 EV kit is a fully assembled and tested
board. Follow these steps to verify board operation. Do
not turn on the power supply until all connections
are completed.
1) Connect a +5V supply to the pad marked +5V.
Connect a -5V supply to the pad marked -5V.
Connect ground(s) to the GND pad.
2) Connect an oscilloscope to the BNC jack marked
OUTPUT through a terminated 50Ω cable. The
MAX038 output prior to the amplifier stage may also
be monitored using an oscilloscope probe at the
OUT pad.
3) Place the shunt across pins 2 and 3 of JU4 for 50%
duty cycle. Place the shunt across pins 1 and 2 of
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1
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Evaluates: MAX038
_______________General Description
Evaluates: MAX038
MAX038 Evaluation Kit
JU3 to allow the frequency to be adjusted. Verify
that there is a shunt on JU5.
4) Verify the shunts on JU1 and JU2 for a square-wave
output. Refer to Table 1 for alternate waveform
selections.
5) Apply power and verify the output waveform.
_______________Detailed Description
Waveform Selection
To select the desired output waveform, place shunts
across JU1 and JU2 in the combinations shown in
Table 1. These jumpers set address pins A0 and A1 to
TTL/CMOS-logic levels. External control may be initiated by connecting an external source to the A0 and
A1 pads and removing the shunts on JU1 and JU2.
Note that there are 10kΩ pull-up resistors to +5V on the
A0 and A1 address lines.
Table 1. Waveform Jumper Select
JU1
Don't Care
Open
Short
JU2
Open
Short
Short
OUTPUT WAVEFORM
Sine Wave
Triangle Wave
Square Wave
Table 2. Frequency and Duty-Cycle Jumper Select
JUMPER
JU3
JU4
SHUNT
LOCATION
1&2
2&3
1&2
2&3
MAX038 OUTPUT
Adjustable Frequency
Pre-Set Frequency*
Adjustable Duty Cycle
Fixed 50% Duty Cycle
* Note: Frequency pre-set by oscillator capacitor (C1) and input
current (position of R3) as specified by formula [1].
Output Frequency
The output frequency is controlled by the oscillator
capacitor (C1), the current injected into the IIN pin, and
the voltage on the FADJ pin. The EV kit allows independent adjustment of both input current (R3) and FADJ
voltage (R2). Refer to the Detailed Description section
of the MAX038 data sheet for additional theory of operation.
2
Input Current Control
The current injected into the IIN pin acts as the primary
frequency-adjustment control. The R3 potentiometer
varies the current to the MAX038’s IIN pin. The input
current can be easily monitored by removing the JU5
shunt and placing a current meter across the JU5 pins.
The components supplied on the EV kit will allow an
input current range of 50µA to 725µA. With the VADJ
pin grounded, the fundamental output frequency (Fo) is
as follows:
Fo (MHz) = IIN(µA) ÷ COSC (pF)
[1]
where: IIN = current injected into IIN
= VREF ÷ (R3 + R12)
= 2.5V ÷ (0kΩ to 50kΩ + 3.3kΩ)
COSC = external oscillator capacitor (C1)
To use an external input current, connect the external
current source to the IIN pad and remove the JU5 shunt
completely. Note that there is a 3.3kΩ resistor in series
with the device IIN pin.
FADJ Control
Varying the FADJ voltage will also vary the output frequency. With a shunt across pins 1 and 2 of JU3, the
R2 potentiometer will vary the voltage applied to the
FADJ pin. With the JU3 shunt on pins 2 and 3, the FADJ
pin is grounded. Grounding the FADJ pin sets the output to the fundamental output frequency (F o ), as
given by equation [1].
To use an external FADJ voltage, connect the external
source to the FADJ pad and remove the JU3 shunt
completely. Limit the external FADJ voltage to ±2.4V.
Duty-Cycle Control
The voltage on the DADJ pin controls the duty cycle of
the output waveform. With the JU4 shunt on pins 1 and 2,
the R1 potentiometer will vary the voltage applied to the
DADJ pin, thus varying the duty cycle 15% to 85%. With
the JU4 shunt on pins 2 and 3, the DADJ pin is grounded.
Grounding the DADJ pin fixes the duty cycle at 50%.
To use an external DADJ voltage, connect the external
voltage source to the DADJ pad and remove the JU4
shunt completely. Limit the external DADJ voltage to
±2.3V.
_______________________________________________________________________________________
MAX038 Evaluation Kit
The MAX442 is actually a 2-channel amplifier. A builtin multiplexer allows either of two input signals to be
selected. TTL-level address pin A0 selects either IN0
or IN1. The MAX038 output is connected to MAX442
input IN0. IN1 is unused and connected to ground; it
may be used by cutting the JU7 trace, thus disconnecting IN1 from ground. Likewise, the MAX442
address pin A0 can be disconnected from ground by
cutting the JU8 trace. Pull up A0 to +5V to select IN1.
See the MAX442 data sheet for additional operation
details.
Reference Voltage
The MAX038 includes a 2.5V bandgap reference capable of sourcing 4mA and sinking 100µA. Access to the
reference voltage is provided at the REF pad. The reference voltage is primarily used to provide stable current to IIN and to bias DADJ and FADJ.
Extending the Output
Frequency Range
The components supplied with the EV kit allow an output frequency range of 325kHz to 10MHz. The frequency range is controlled primarily by the oscillator capacitor (C1) and the input current, which is a function of the
reference voltage and potentiometer R3. The resulting
frequency range can be shifted up or down depending
on the value of C1. Refer to the Output Frequency vs.
Input Current graph which appears in the Typical
Operating Characteristics of the MAX038 data sheet.
The upper end of the range can be extended by reducing C1. The lower end of the range can be reduced by
increasing the value of C1. Take care when selecting
alternate capacitors if stable operation over temperature is desired. Ceramic capacitors with low temperature coefficients give the best results. Refer to the
Selecting Resistors and Capacitors section of the
MAX038 data sheet for further details.
Sync Output
and Phase-Detector Input
Refer to the SYNC Output and Phase Detector sections
of the MAX038 data sheet for details of circuit synchronization. Access to the Phase Detector Input (PDI) and
SYNC is provided at pads PDI and SYNC.
High-speed transient currents in DGND and DV+ can
cause a switching spike in the output waveform at the
zero-crossing point. A lowpass output filter, as shown in
Figure 3 of the MAX038 data sheet, may be used to
greatly reduce the spike. Complete LC filter assemblies
(S3LP series) are available from Coilcraft (phone:
708-639-6400). If the SYNC output is not required, disabling the SYNC circuit will eliminate the switching
spike. Cut the trace between the DV+ and +5V pads to
disable the SYNC output.
_______________________________________________________________________________________
3
Evaluates: MAX038
Output Buffer
The MAX038 output amplitude is fixed at 2V p-p. The
MAX038 output is capable of driving a capacitive load
up to 90pF. The MAX442 amplifier buffers the MAX038
output to a 50Ω coaxial cable. The MAX442 is set at a
gain of 2V/V, so that the output amplitude remains 1V/V
after the 50Ω back termination. The EV kit’s OUT pad
provides access to the output of the MAX038 prior to
the MAX442 buffer stage. The MAX442 output connects
to the BNC connector through a 50Ω resistor to back
terminate a 50Ω coaxial cable. When a terminated 50Ω
cable is connected, this resistor forms a voltage divider
with the load impedance, which attenuates the signal
by one-half. The MAX442 is operated with a 2V/V
closed-loop gain to provide unity gain at the 50Ω
cable’s output.
Evaluates: MAX038
MAX038 Evaluation Kit
1
2
JU7
CUT HERE
3
4
-5V
IN0
GND
A0
U2
8
JU8
CUT HERE
MAX442
V+
C12
0.1µF
7
+5V
J1
6
IN1
VOUT
R7
270Ω
5
V-
R6
51Ω
IN-
C11
0.1µF
BNC
OUTPUT
R8
270Ω
REF
+5V
–5V
R4
10k
C2
0.1µF
R5
10k
1
JU1
2
JU2
3
A0
4
A1
C1
82pF
5
6
R10
0Ω
DADJ
R1
20k
1
2
GND
OUT
GND
A0
A1
COSC
GND
19
1
7
2
9
3
R9
0Ω
OUT
U1
MAX038
V+
17
+5V
C8
4.7µF
DV+
DGND
16
15
C9
0.1µF
DV+
GND
DADJ
SYNC
FADJ
PDI
GND
PDO
14
SYNC
13
PDI
12
PDO
IIN
GND
11
R12
3.3k
FADJ
IIN
Figure 1. MAX038 EV Kit Schematic
4
CUT HERE
TO DISABLE
SYNC
C6
4.7µF C7
0.1µF
C3
0.1µF
10
JU5
C5
0.1µF
18
JU3
R3
50k
C4
4.7µF
20
JU6
CUT HERE
8
R11
0Ω
R2
20k
V-
3
JU4
C10
0.1µF
REF
_______________________________________________________________________________________
MAX038 Evaluation Kit
Evaluates: MAX038
Figure 2. MAX038 EV Kit Component Placement Guide—Component Side
_______________________________________________________________________________________
5
Evaluates: MAX038
MAX038 Evaluation Kit
Figure 3. MAX038 EV Kit PC Board Layout—Component Side
6
_______________________________________________________________________________________
MAX038 Evaluation Kit
Evaluates: MAX038
Figure 4. MAX038 EV Kit PC Board Layout—Solder Side
_______________________________________________________________________________________
7
Evaluates: MAX038
MAX038 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
© 1996 Maxim Integrated Products
Printed USA
is a registered trademark of Maxim Integrated Products.