View MAX1308EVKIT_318054.PDF datasheet online --- IC-ON-LINE

Datasheet File OCR Text:

19-3607; Rev 0; 3/05
MAX1308 Evaluation Kit/Evaluation System
General Description
The MAX1308 evaluation system (EV system) is a complete 8-channel, 12-bit, data-acquisition system. The MAX1308 EV system (MAX1308EVB16) consists of a MAX1308 evaluation kit (EV kit) and the Maxim 68HC16MOD-16WIDE microcontroller (C) module. Order the EV kit (MAX1308EVKIT) separately if the user has a parallel bus controller or if the 68HC16MOD16WIDE C module has already been purchased. The MAX1308 EV kit can be used to evaluate the MAX1308 with an external system clock. In this mode, the 68HC16MOD-16WIDE board cannot be used and the user must supply a parallel interface. The EV kit comes with the MAX1308ECM installed. To evaluate the pin-compatible MAX1304ECM- MAX1307ECM and MAX1309ECM-MAX1315ECM, contact the factory for free samples. Proven PC-Board Layout Windows(R) 98-/2000-/XP-Compatible Evaluation Software Buffers on All Input Channels Headers to Connect EV System to Logic Analyzer Fully Assembled and Tested
Features
Evaluate: MAX1304-MAX1315
Ordering Information
PART MAX1308EVKIT MAX1308EVB16 INTERFACE TYPE User-supplied parallel-bus controller Windows software
MAX1308EVB16 Component List
PART MAX1308EVKIT 68HC16MOD-16WIDE QTY 1 1 DESCRIPTION MAX1308 EV kit 68HC16 C module
Note: The MAX1308 software is included with the MAX1308 EV kit but is designed for use with the complete EV system. The EV system includes both the Maxim C module and the EV kit. If the Windows software will not be used, the EV kit board can be purchased without the Maxim C module. Note: To evaluate the MAX1304ECM-MAX1307ECM or the MAX1309ECM-MAX1315ECM, request a free sample when ordering the MAX1308EVKIT or MAX1308EVB16.
MAX1308EVKIT Component List
DESIGNATION C1-C6, C39 QTY 7 DESCRIPTION 2.2F 10%, 25V X7R ceramic capacitors (1206) TDK C3216X7R1E225K 0.1F 10%, 25V X7R ceramic capacitors (0603) TDK C1608X7R1E104K 0.01F 10%, 25V X7R ceramic capacitors (0603) Murata GRM188R71E103K 4.7F 10%, 16V X7R ceramic capacitor (1206) TDK C3216X7R1C475K 470pF 10%, 50V X7R ceramic capacitors (0603) Murata GRM188R71H471K SMA connectors Ferrite bead TDK MMZ1608B601C (0603) 2 x 9-pin header 2 x 12-pin header DESIGNATION J3, J4 JU1-JU12 JU13-JU16 JU17, JU18, JU19 R1-R8 R9-R16 R17-R24 R25-R32 U1 U2-U5 U6 None None None QTY 2 12 4 0 8 8 8 8 1 4 1 16 1 1 DESCRIPTION 2 x 20, 0.1in right-angle receptacles 2-pin headers 3-pin headers Not installed (2-pin headers) 100k 5% resistors (0603) 10 5% resistors (0603) 8.66k 1% resistors (0603) 24 5% resistors (0603) 8-channel, 12-bit ADC MAX1308ECM (48-pin TQFP) Dual-supply op amps MAX4351ESA (8-pin SO) Ultra-high-precision voltage regulator MAX6126AASA25 (8-pin SO) Shunts MAX1308 EV kit PC board MAX1308 EV kit software, CD-ROM
C7-C27
21
C28, C29
2
C30
1
C31-C38 ECLK, CONVST FB1 J1 J2
8 2 1 1 1
Windows is a registered trademark of Microsoft Corp. ________________________________________________________________ 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.
MAX1308 Evaluation Kit/Evaluation System Evaluate: MAX1304-MAX1315
MAX1308 EV Kit Files
FILE INSTALL.EXE MAX1308.EXE MAX1308.C16 HELPFILE.HTM UNINST.INI MAX1308.ASM EVKIT2.ASM GPT.ASM QSPI.ASM DESCRIPTION Installs the EV kit files on your computer Application program 68HC16MOD-16WIDE software MAX1308 EV kit help file Uninstalls the EV kit software 68HC16MOD-16WIDE C source file 68HC16MOD-16WIDE C source file 68HC16MOD-16WIDE C source file 68HC16MOD-16WIDE C source file
Procedure
Do not turn on the power until all connections are made. 1) Set JU1 to 1-2 (selects midscale reference for bipolar operation). 2) Set JU2 to 1-2 (selects on-board external reference). 3) Remove shunt from JU3 (disables autoread feature). 4) Set JU4 to 1-2 (enables the MAX1308 internal clock). 5) Set JU5-JU12 to 1-2 (selects buffered input for channel 0 through channel 7). 6) Set JU13 to 2-3 (selects midscale reference for bipolar operation). 7) Set JU14 to 1-2 (enables the MAX1308 internal clock). 8) Set JU15 to 2-3 (selects VCC from 68HC16MOD16WIDE as DVDD) 9) Set JU16 to 2-3 (selects HVAVCC pad as positive supply for input buffers). 10) Connect the MAX1308 EV kit's two 40-pin female connectors (J3 and J4) to the 68HC16MOD-16WIDE module's two 40-pin male connectors (P1 and P2). 11) Connect the 9-pin serial cable from the computer's serial port to the 68HC16MOD-16WIDE module's DB9 connector (J3). Use a USB-to-serial adapter if your computer does not have a serial port. 12) Install the MAX1308 evaluation software on your computer by running the INSTALL.EXE program. The files can be obtained from the Maxim website or the enclosed CD. The program files are copied and icons are created for them in the Windows Start menu. 13) Connect the +5V power supply between the MAX1308 EV kit's AVDD and AGND pads. 14) Connect the 5.5V power supply to the MAX1308 EV kit (+5.5V to HVAVCC pad, ground to AGND pad, and -5.5V to HVAVEE pad). 15) Connect the 7V (up to 20V supported) power supply to the 68HC16MOD-16WIDE's power connector (J2). 16) Turn on all three power supplies. 17) Turn on the 68HC16MOD-16WIDE by setting SW1 to the ON position. 18) Measure the voltage at REF using the DVM and verify that the voltage is 2.500V 0.025V. 19) Start the MAX1308 EV kit software by double-clicking its icon in the Start menu.
Component Suppliers
SUPPLIER Murata TDK PHONE 770-436-1300 847-803-6100 WEBSITE www.murata.com www.component.tdk.com
Note: Indicate you are using the MAX1308 when contacting these component suppliers.
Quick Start
Recommended Equipment
* Maxim MAX1308EVB16 EV system (MAX1308EVKIT and 68HC16MOD-16WIDE C module) * 3 power supplies: 1) 7V or higher (up to 20V) at 300mA for the 68HC16MOD-16WIDE 2) 5V at 250mA for AVDD 3) 5.5V at 250mA for HVAVCC and HVAVEE (or 10V at 250mA to evaluate the MAX1312ECM- MAX1315ECM) * Waveform generator (optional) * Digital voltmeter (DVM) * User-supplied 9-pin serial extension cable * User-supplied Windows 98/2000/XP PC with an available RS-232 serial port * Logic analyzer (optional)
2
_______________________________________________________________________________________
MAX1308 Evaluation Kit/Evaluation System
Detailed Description of Software
To start the software, double-click the MAX1308 EV kit icon that is created during installation. The Serial Form, shown in Figure 1, appears and the user must click Ok to upload the firmware to the 68HC16MOD-16WIDE and begin the program. When the firmware has been uploaded and the C on the 68HC16MOD-16WIDE has booted, the MAX1308 evaluation software (shown in Figure 2) appears. The Part pulldown menu allows the user to select any part in the MAX1304ECM-MAX1315ECM family. By default, the MAX1308ECM is selected. The Sampling pulldown menu allows the user to select between three sampling modes: single sample, continuous sample, and block sample. Note that in block-sample mode, the user can select the sampling rate (per channel) and this rate changes depending on how many channels are selected. The check boxes in the Power Saving Modes box allow the user to enable the different power-saving features of the MAX1308. The two check boxes are labeled SHDN pin and /CHSHDN pin and represent the state of the MAX1308's pin with the same designation. Checking and unchecking these boxes sets the corresponding IC pin high and low, respectively. The Channel Select box contains a check box for each input channel of the IC. Checking the box allows the software to sample the channel. The Input Values box displays the raw data and corresponding input voltage of all selected channels after sampling. The References box allows the user to specify the exact references being used. The values for the reference voltage and the midscale voltage should be entered here. These values are used in the transfer function for converting the raw data into a corresponding input voltage. The Sample Options box is used to control sampling in any of the three sampling modes. In single-sample mode, the Sample button is used to sample all selected channels once. In continuous-sample mode, the Start and Stop buttons are used to sample all selected channels and a sampling interval (between 200ms and 10,000ms) can be entered in the Sampling Interval text field. In block-sample mode, the Sample button is used to bring up the Sampling Tool (see Figure 3) and the Sampling Frequency scrollbar is used to select a sampling frequency per channel. Note that the sampling frequency is adjusted as channels are selected/unselected and is typically accurate to within 0.5ms. To determine the exact sampling frequency per channel in block-sample mode, observe consecutive falling edges on the CONVST pin (J1-7) when sampling. To capture data for precision FFTs, use the MAX1308 EV kit with an external clock and a logic analyzer (instead of the 68HC16MOD-16 WIDE) to read the parallel bus. This improves the accuracy of the ADC clocking system. When using the MAX1308 evaluation software, it can be useful to display the Serial Form and/or Graph Form. To display these forms, click on the appropriate command in the Options menu. The Serial Form displays all communication between the MAX1308 evaluation software and the 68HC16MOD-16WIDE. The Graph Form (see Figure 4) displays a graph of sampled results when the software is in continuous-sample mode. Note that when viewing graphical information (using either the Graph Form in continuous-sample mode or done automatically in block-sample mode), the raw codes collected from the MAX1308 are converted from two's complement (or offset binary in unipolar devices) to signed decimal. The raw data can be saved to a text file using the Save... menu item in the graph window.
Evaluate: MAX1304-MAX1315
Detailed Description of Hardware
MAX1308EVB16 EV System
The MAX1308EVB16 is a complete 8-channel, 12-bit, data-acquisition system consisting of a MAX1308 EV kit and the Maxim 68HC16MOD-16WIDE C module.
68HC16MOD-16WIDE C Module
The 68HC16MOD-16WIDE provides a 16-bit parallel bus to demonstrate various Maxim devices. Maxim reserves the right to change the implementation of this module at any time with no advance notice.
MAX1308 EV Kit
The MAX1308 EV kit board provides a proven layout for evaluating the MAX1308 8-channel, 12-bit ADC and can be obtained separately without the 68HC16MOD-16WIDE C module. The MAX1308 EV kit includes an on-board 2.5V reference (MAX6126) and buffers (MAX4351) for all eight input channels. The MAX1308ECM (U1) is powered from two sources. The user must supply +5V between AVDD and AGND, and +3V to +5V between DVDD and DGND. DVDD can also be supplied from the 68HC16MOD-16WIDE using JU15.
_______________________________________________________________________________________
3
MAX1308 Evaluation Kit/Evaluation System Evaluate: MAX1304-MAX1315
Figure 1. MAX1308 EV Kit Serial Form
Figure 2. MAX1308 Evaluation Software
4
_______________________________________________________________________________________
MAX1308 Evaluation Kit/Evaluation System Evaluate: MAX1304-MAX1315
Figure 3. MAX1308 EV Kit Sampling Tool
Figure 4. MAX1308 EV Kit Graph Form
_______________________________________________________________________________________
5
MAX1308 Evaluation Kit/Evaluation System Evaluate: MAX1304-MAX1315
The input buffers require a +5.5V positive supply (HVAVCC) and a -5.5V negative supply (HVAVEE). The positive supply for the input buffers must be applied on the HVAVCC pad or connected to AVDD using JU16. The negative supply must be applied on the HVAVEE pad. Connect the ground for these supplies to the AGND pad. Jumpers on the EV kit allow evaluation of all the parts in the MAX1304-MAX1315 family. When changing between parts in the family, JU1 and JU13 must be set according to whether the IC accepts bipolar or unipolar inputs. If the IC has less than eight input channels (i.e., four channels or two channels), the unused input pins can be connected to AGND or left floating. Note that if the inputs are buffered and exceed 5V (i.e., when using the MAX1312-MAX1315 that support inputs up to 10V), replace the MAX4351 buffers (U2-U5) with buffers capable of 10V voltage range. The MAX1308 on the EV kit uses the on-board MAX6126 2.5V reference instead of its internal reference when shipped. To use the MAX1308's internal 2.5V reference, remove the shunt from JU2. The user can also use an external reference by first removing the shunt from JU2 and applying the reference voltage to the REF pad. When using a non-default reference value, the user must update the value in the EV kit software's References box. A logic analyzer can be used instead of the 68HC16MOD-16WIDE to evaluate the MAX1308 EV kit. For this configuration, disconnect the EV kit from the 68HC16MOD-16WIDE and connect the logic analyzer to J1 and J2. These headers allow access to the MAX1308 control (J1) and data (J2) pins. When shipped, the MAX1308 EV kit is set to use the MAX1308 internal clock, but an external clock can be supported. To use an external clock, connect the clock signal to the ECLK SMA connector, remove the shunt from JU4, and set the shunt on JU14 to the 2-3 position. In this configuration, the 68HC16MOD-16WIDE can no longer be used and the user must supply a parallel interface (i.e., a logic analyzer). When not using the 68HC16MOD-16WIDE as the parallel interface, the MAX1308 EV kit can be put into autoread mode by placing a jumper on pins 1-2 of JU3. In this mode, the MAX1308 EOC pin is connected to the RD strobe and available samples are immediately outputted on the parallel bus. When performing autoread, the CS pin can be connected low by placing a jumper between J1-9 and J1-10. Note that when the 68HC16MOD-16WIDE is not being used as the parallel interface, JU15 must be set to the
6
1-2 position and DVDD must be supplied between the DVDD and DGND pads on the EV kit.
Jumper Selection Tables
The following tables (Tables 1-9) explain the functionality of each jumper on the MAX1308 EV kit.
Table 1. Midscale Voltage Select
JUMPER SHUNT POSITION Short* JU1 Open Midscale voltage is set for unipolar inputs. DESCRIPTION Midscale voltage is set for bipolar inputs.
*Default configuration.
Table 2. Reference Select
JUMPER SHUNT POSITION Short* DESCRIPTION Select on-board 2.5V reference (MAX6126) as voltage reference. Select internal 2.5V reference or external REF pad as voltage reference. Note that external reference must be between 2V and 3V.
JU2 Open
*Default configuration.
Table 3. Autoread Mode
JUMPER SHUNT POSITION Short Open* DESCRIPTION Connects RD and EOC lines for autoread mode. Disables autoread mode.
JU3
*Default configuration.
Table 4. ADC Clock-Source Select
JUMPER SHUNT POSITION Short* JU4 Open Select external ECLK SMA as ADC system clock. DESCRIPTION Select internal clock as ADC system clock.
*Default configuration.
_______________________________________________________________________________________
MAX1308 Evaluation Kit/Evaluation System Evaluate: MAX1304-MAX1315
Table 5. Buffered Input Select
JUMPER SHUNT POSITION DESCRIPTION Channel X (where X is determined by the jumper number minus 5) input must appear on CHX-BUF pads and is buffered using the MAX4351. Channel X (where X is determined by the jumper number minus 5) input must appear on CHX pads and is not buffered. JUMPER SHUNT POSITION 1-2 JU16 2-3* Open DESCRIPTION Positive supply to input buffers connected to AVDD. Positive supply to input buffers connected to HVAVCC pad. No positive supply to input buffers.
Table 9. Positive Supply for Input Buffers (HVAVCC) Select
Short* JU5-JU12
Open
*Default configuration.
*Default configuration.
General Troubleshooting
Problem 1: 68HC16MOD-16WIDE not found (see Figure 5). * Is LED1 on the 68HC16MOD-16WIDE lit? * Is the power supply connected? * Is SW1 turned to ON position? * Is the DB9 serial-communications cable connected? * Could another application be using the COM port (i.e., PDA software)? Problem 2: Cannot read data from MAX1308 EV kit. * Are JU5-JU12 set for buffered or unbuffered inputs? * Are the buffer power supplies (HVAVCC and HVAVEE) connected? * Are the MAX1308 EV kit power supplies (AVDD and DVDD) connected? * Are JU4 and JU14 set for internal or external clock? * Is the part in shutdown mode? Problem 3: Data being read from the MAX1308 seems incorrect. * Are JU1 and JU13 set for bipolar or unipolar inputs? * Is the reference voltage entered correctly in the MAX1308 evaluation software? * Is the midscale voltage entered correctly in the MAX1308 evaluation software? * Is the correct part selected in the MAX1308 evaluation software? * Is the source impedance less than 100?
Table 6. Midscale Reference Select
JUMPER SHUNT POSITION 1-2 JU13 2-3* Midscale reference is set for bipolar inputs. DESCRIPTION Midscale reference is set for unipolar inputs.
*Default configuration.
Table 7. ADC System Clock Select
JUMPER SHUNT POSITION 1-2* JU14 2-3 Select external ECLK SMA as ADC system clock. DESCRIPTION Select internal clock as ADC system clock.
*Default configuration.
Table 8. DVDD Select
JUMPER SHUNT POSITION 1-2 JU15 2-3* DESCRIPTION DVDD supplied from DVDD pad. DVDD connected to VCC supply from 68HC16MOD-16WIDE.
*Default configuration.
_______________________________________________________________________________________
7
MAX1308 Evaluation Kit/Evaluation System Evaluate: MAX1304-MAX1315
Figure 5. 68HC16MOD-16WIDE Not-Found Error Message 8 _______________________________________________________________________________________
MAX1308 Evaluation Kit/Evaluation System Evaluate: MAX1304-MAX1315
CH0-LPF
CH1-LPF
CH2-LPF
CH3-LPF
CH4-LPF
CH5-LPF
CH6-LPF
AVDD
DVDD
CH7-LPF
R8 100k J1 CHSHDN 48 R7 100k SHDN HEADER 2 x 9 J1-1 J1-2
15
17
25
38
10
11 CH6
CH0
CH1
CH2
CH3
CH4
CH5
AVDD
AVDD
AVDD
DVDD
MSV JU1 C4 2.2F C23 0.1F
6
MSV
DVDD
CHSHDN
CH7 SHDN 47 46 DVDD JU4 R6 100k CONVST 45 DVDD ECLK
12
1
4
5
7
8
9
REFMS
18 C28 0.01F 12 JU13 3 19 JU2 2.500V C29 0.01F 20 C25 0.1F C5 2.2F C24 0.1F 22 C26 0.1F
J1-3 J1-5
J1-4 J1-6
REFMS U1 CLK
MAX1308
REF
REF
J1-7 R5 CONVST CONVST 100k
J1-8
REF+
REF+ 44
CS REF-
REF-
DVDD CS R4 100k
J1-9
J1-10
COM C6 2.2F C27 0.1F AVDD 1 2 3
21
COM
WR
43 DVDD WR R3 100k
J1-11 J1-12
JU14
13 2
INTCLK/EXTCLK RD 42
AGND 3 AGND 14 AGND 16 AGND 23 AGND 24 39 DGND DGND
DVDD RD R2 100k JU3 EOC
J1-13 J1-14
EOLC
41 DVDD EOLC R1 100k
J1-15 J1-16
EOC D10 D11 D0 D1 D2 D3 D4 D5 D6 D7 D8 D9
40 EOC
J1-17 J1-18
27
28
29
30
31
32
33
34
35
36 D10 J2-20 J2-19
26
J2-1
J2-3
J2-5
J2-7
J2-9
J2-12 J2-11
J2-14 J2-13
J2-16 J2-15
J2-18 J2-17
J2-22 J2-21
D11 J2-24 J2-23
D0
D1
D2
D3
D4
D5
D6
D7
D8
Figure 6. MAX1308 EV Kit Schematic (Sheet 1 of 3)
_______________________________________________________________________________________
J2-10
J2 J2-2 J2-4 J2-6 J2-8
HEADER 2 x 12
D9
37
9
Evaluate: MAX1304-MAX1315
Figure 6. MAX1308 EV Kit Schematic (Sheet 2 of 3)
HVAVCC CH1 R10 10 JU7 1 OUTA OUTB U3 2 INAR28 24 INB6 7 JU8 VCC 8 CH1-LPF R26 24 R27 24 INB6 C32 470pF C33 470pF CH2-LPF R11 10 R12 10 CH3-LPF C34 470pF CH2 VCC OUTA OUTB U2 2 INA7 JU6 8 HVAVCC CH3 1 R25 24
MAX1308 Evaluation Kit/Evaluation System
10
MAX4351
5 CH1-BUF INA+ R18 8.66k 1% R19 8.66k 1% HVAVEE 4 VEE VEE CH2-BUF 3 INB+ 5
CH0
R9 10
JU5
CH0-LPF
C31 470pF
MAX4351
CH0-BUF INA+ HVAVEE 4
3 INB+
CH3-BUF R20 8.66k 1%
R17 8.66k 1%
CH4 CH5 R14 10 R15 10 JU11 CH5-LPF R30 24 INB6 C36 470pF C37 470pF R31 24 2 INACH6-LPF 1 CH6 VCC OUTA OUTB U4 2 INA7 JU10 8
HVAVCC
HVAVCC VCC OUTA U5 OUTB 8 7 JU12 R16 10
CH7
R13 10 1
JU9
CH4-LPF R29 24
CH7-LPF R32 24 C38 470pF
C35 470pF
MAX4351
5 CH5-BUF CH6-BUF R23 8.66k 1% R22 8.66k 1%
MAX4351
3
INB-
6
CH4-BUF INA+ HVAVEE 4 VEE
3 INB+
INA+ HVAVEE 4 VEE
INB+
5 R24 8.66k 1%
CH7-BUF
R21 8.66k 1%
AVDD HVAVCC JU16 1 C39 2.2F C11 0.1F C12 0.1F C13 0.1F C14 0.1F 2 3 HVAVCC
HVAVEE
______________________________________________________________________________________
HVAVEE C2 2.2F C15 0.1F C16 0.1F C17 0.1F C18 0.1F
MAX1308 Evaluation Kit/Evaluation System Evaluate: MAX1304-MAX1315
AVDD FB1 AVDD AGND C1 2.2F C7 0.1F C8 0.1F C9 0.1F JU17 AVDD JU18 JU19 2 C10 0.1F 1 C21 0.1F C19 0.1F C20 0.1F GND 3 NR OUTS GNDS IN U6 MAX6126 VCC JU15 DVDD 1 2 3 C3 2.2F DGND DVDD I.C. I.C. OUTF 8 5 7 6 4 C30 4.7F C22 0.1F 2.500V
J3 HEADER 2 x 20 FEMALE J3-1 J3-3 J3-5 VCC J3-7 J3-9 J3-2 J3-4 J3-6 J3-8 J3-10 VCC D0 D2 D4 D6 D8 D10 J4-1 J4-3 J4-5 J4-7 J4-9
J4 HEADER 2 x 20 FEMALE J4-2 J4-4 J4-6 J4-8 J4-10 D1 D3 D5 D7 D9 D11
J3-11 J3-12 CHSHDN SHDN J3-13 J3-14 J3-15 J3-16 J3-17 J3-18 CONVST J3-19 J3-20 J3-21 J3-22 J3-23 J3-24 J3-25 J3-26 J3-27 J3-28 J3-29 J3-30 J3-31 J3-32 J3-33 J3-34 CS WR J3-35 J3-36 J3-37 J3-38 J3-39 J3-40 RD EOLC EOC
J4-11 J4-12 J4-13 J4-14 J4-15 J4-16 J4-17 J4-18 J4-19 J4-20 J4-21 J4-22 J4-23 J4-24 J4-25 J4-26 J4-27 J4-28 J4-29 J4-30 J4-31 J4-32 J4-33 J4-34 J4-35 J4-36 J4-37 J4-38 J4-39 J4-40
Figure 6. MAX1308 EV Kit Schematic (Sheet 3 of 3) ______________________________________________________________________________________ 11
MAX1308 Evaluation Kit/Evaluation System Evaluate: MAX1304-MAX1315
Figure 7. MAX1308 EV Kit Component Placement Guide--Component Side 12 ______________________________________________________________________________________
MAX1308 Evaluation Kit/Evaluation System Evaluate: MAX1304-MAX1315
Figure 8. MAX1308 EV Kit PC Board Layout--Component Side
______________________________________________________________________________________
13
MAX1308 Evaluation Kit/Evaluation System Evaluate: MAX1304-MAX1315
Figure 9. MAX1308 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.
14 ____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600 (c) 2005 Maxim Integrated Products Printed USA is a registered trademark of Maxim Integrated Products, Inc.

▲Up To Search▲

Price & Availability of MAX1308EVKIT

	To Download MAX1308EVKIT Datasheet File
If you can't view the Datasheet, Please click here to try to view without PDF Reader .