MAX9613EVKIT+ [MAXIM]
Fully Assembled and Tested;型号: | MAX9613EVKIT+ |
厂家: | MAXIM INTEGRATED PRODUCTS |
描述: | Fully Assembled and Tested |
文件: | 总6页 (文件大小:849K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
19-5190; Rev 0; 3/10
MAX9613 Evaluation Kit
General Description
Features
S Accommodates Multiple Op-Amp Configurations
The MAX9613 evaluation kit (EV kit) provides a proven
design to evaluate the MAX9613 low-power, MOS-input
operational amplifier (op amp) in a 6-pin SC70 package.
The EV kit circuit is preconfigured as a noninverting
amplifier, but can easily be adapted to other topologies
by changing a few components. Low-power, low-input
Vos, and rail-to-rail input/output stages make this device
ideal for a variety of measurement applications. The
component pads accommodate 0805 packages, making
them easy to solder and replace. The EV kit comes with
a MAX9613AXT+ installed.
Component Pads Allow for Sallen-Key Filter
S Rail-to-Rail Inputs/Outputs
S Accomodates Easy-to-Use 0805 Components
S Proven PCB Layout
S Fully Assembled and Tested
Ordering Information
PART
TYPE
MAX9613EVKIT+
EV Kit
+Denotes lead(Pb)-free and RoHS compliant.
Component List
DESIGNATION QTY
DESCRIPTION
DESIGNATION QTY
DESCRIPTION
3-pin header
JU2
R1, R2
R5
1
2
1
2
1
0.1FF Q10%, 16V X7R ceramic
capacitor (0603)
Murata GRM188R71C104K
C1
1
1kI Q1% resistors (0805)
10kI Q1% resistor (0805)
0I Q5% resistors (0805)
Red multipurpose test point
R6, R8
VDD
4.7FF Q10%, 6.3V X5R ceramic
capacitor (0603)
Murata GRM188R60J475K
C2
1
0
Single low-power, rail-to-rail I/O
op amp (6 SC70)
Maxim MAX9613AXT+
(Top Mark: +ADK)
Not installed, ceramic capacitors
(0805)
C3, C4, C8, C9
U1
1
GND
INM, INP, OUTA
JU1
2
3
1
Black multipurpose test points
White multipurpose test points
2-pin header
—
—
2
1
Shunts
PCB: MAX9613 EVALUATION
KIT+
Component Supplier
SUPPLIER
Murata Electronics North America, Inc.
PHONE
WEBSITE
770-436-1300
www.murata-northamerica.com
Note: Indicate that you are using the MAX9613 when contacting this component supplier.
_______________________________________________________________ Maxim Integrated Products
1
For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642,
or visit Maxim’s website at www.maxim-ic.com.
MAX9613 Evaluation Kit
7) Apply 400mV from the precision voltage source.
OUTA should read approximately +4.4V.
Quick Start
Required Equipment
•ꢀ MAX9613ꢀEVꢀkit
Detailed Description of Hardware
•ꢀ +5V,ꢀ10mAꢀDCꢀpowerꢀsupplyꢀ(PS1)
•ꢀ Precisionꢀvoltageꢀsource
The MAX9613 EV kit provides a proven layout for the
MAX9613 low-power, MOS-input op amp. The device
is a single-supply op amp that is ideal for buffering
sensor signals. A Sallen-Key 2nd-order active filter, as
described in the Sallen-Key Configuration section, is
easily accomplished by changing and removing some
components. Various test points are included for easy
evaluation.
•ꢀ Digitalꢀmultimeterꢀ(DMM)
Procedure
The EV kit is fully assembled and tested. Follow the steps
below to verify board operation:
1) Verify that jumpers JU1 and JU2 are in their default
positions, as shown in Table 1.
Op-Amp Configurations
The device is a single-supply op amp that is ideal for
differential sensing, noninverting amplification, buffering,
and filtering. A few common configurations are shown in
the next few sections.
2) Connect the positive terminal of the +5V supply to the
VDD test point and the negative terminal to the GND
test point closest to VDD.
3) Connect the positive terminal of the precision voltage
source to the INP test point. Connect the negative
terminal of the precision voltage source to GND (GND
or INM test points).
Noninverting Configuration
The EV kit comes preconfigured as a noninverting ampli-
fier with a gain of +11. The gain is set by the ratio of R5
and R1 (Figure 1). For a voltage applied to the INP test
point, the output voltage for the noninverting configura-
tion is given by the equation below:
4) Connect the DMM to monitor the voltage on the OUTA
test point. With the 10kI feedback resistor (R5) and
1kIseries resistor (R1), the gain is +11 (noninverting
configuration).
R
R
5
V
= 1+
V
INP
OUT
5) Turn on the +5V power supply.
1
6) Apply 100mV from the precision voltage source.
Observe the output at OUTA on the DMM, which
should read approximately +1.1V.
Differential Amplifier
To configure the EV kit as a differential amplifier, replace
R1, R2, R , and R5 with appropriate resistors. When
C3
R1 = R2 and R5 = R , the common-mode rejection
C3
Table 1. EV Kit Jumper Descriptions
(JU1, JU2)
R2
1kI
1%
SHUNT
POSITION
INP
JUMPER
DESCRIPTION
R8
0I
1
3
OUTA
Connects the INM test point to
GND.
1-2*
4
JU1
Isolates the INM test point from
GND.
R6
0I
Open
1-2*
2-3
INM
Connects SHDN to VDD
(normal operation).
R1
1kI
1%
R5
10kI
1%
JU2
Connects SHDN to GND
(shutdown).
JU1
*Default position.
Figure 1. Default Noninverting Configuration with Gain +11
______________________________________________________________________________________
2
MAX9613 Evaluation Kit
Lowpass Sallen-Key Filter
To configure the Sallen-Key as a lowpass filter, populate
the R2 and R8 pads with resistors, and populate the C3
and C4 pads with capacitors. The corner frequency and
Q are then given by (Figure 3):
ratio (CMRR) of the differential amplifier is determined
by the matching of the resistor ratios R5/R1 and R /R2
C3
(Figure 2).
V
= GAIN V
− V
(
)
OUT
INP
INM
where:
1
ƒ
=
C
R
R2
R5
R1
C3
2π R2× C3×R8× C4
GAIN =
=
R2× C3×R8× C4
C3 R2 + R8
Q =
(
)
R
C3
10kI
R2
1kI
1%
INP
Highpass Sallen-Key Filter
1%
R8
0I
To configure the Sallen-Key as a highpass filter, populate
the C3 and C4 pads with resistors, and populate the R2
and R8 pads with capacitors. The corner frequency and
Q are then given by (Figure 4):
1
3
OUTA
4
R6
0I
INM
1
ƒ
=
C
2π C ×R × C ×R
C3
R8
C4
R2
R1
1kI
1%
R5
10kI
1%
C
×R × C ×R
R8
R
C4
C
R2
C3
Q =
+ C
(
)
Figure 2. Differential Configuration with Gain +10
C4 R2
R8
Sallen-Key Configuration
The Sallen-Key active filter topology is ideal for sensor
signal conditioning with a 2nd-order filter. These filters
benefit from a rail-to-rail input structure with no crossover
distortion, such as that available on the device.
Capacitive Loads
Some applications require driving large capacitive loads.
To improve the stability of the amplifier in such cases,
either replace R6 with a suitable resistor value to improve
amplifier phase margin in the presence of capacitive
load C9, or apply a resistive load in parallel with C9.
C4
4.7nF
R
C4
C3
R
C3
1nF
INP
C
C
R2
INP
R8
R2
19.6kI
R8
2.74kI
1
3
OUTA
1
3
OUTA
4
4
R6
0I
R6
0I
R5
0I
R5
0I
Figure 3. Lowpass 2nd-Order Filter Sallen-Key Configuration
for 10kHz
Figure 4. Generic 2nd-Order Highpass Sallen-Key Filter
_______________________________________________________________________________________
3
MAX9613 Evaluation Kit
Figure 5. MAX9613 EV Kit Schematic
4
______________________________________________________________________________________
MAX9613 Evaluation Kit
1.0’’
1.0’’
Figure 7. MAX9613 EV Kit PCB Layout—Component Side
Figure 6. MAX9613 EV Kit Component Placement Guide—
Component Side
1.0’’
Figure 8. MAX9613 EV Kit PCB Layout—Solder Side>
_______________________________________________________________________________________
5
MAX9613 Evaluation Kit
Revision History
REVISION REVISION
PAGES
CHANGED
DESCRIPTION
NUMBER
DATE
0
3/10
Initial release
—
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
2010 Maxim Integrated Products Maxim is a registered trademark of Maxim Integrated Products, Inc.
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