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Evaluates: MAX77642MAX77642 Evaluation Kit
General DescriptionThe MAX77642 evaluation kit (EV kit) allows for easy experimentation with various MAX77642 features includ-ing the resistor programmability of the SIMO and on-board electronic loads.The Windows®-based software provides a user-friendly graphical interface to manage the on-board electronic loads.
Benefits and Features ● Easy to Use ● GUI-Driven I2C Interface ● Assembled and Fully Tested ● On-Board Electronic Loads
• Steady-State, Transient, and Random Modes ● Demonstration of End-to-End Analog Multiplexer
Implementation ● On-Board ADC
319-100635; Rev 0; 11/20
Ordering Information appears at end of data sheet.
Windows is a registered trademark and registered service mark of Microsoft Corporation.
Figure 1. MAX77642 EV Kit Photo
Click here to ask about the production status of specific part numbers.
https://maximsupport.microsoftcrmportals.com/en-US/cust-support/
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Evaluates: MAX77642MAX77642 Evaluation Kit
Figure 2. EV Kit Simple Block Diagram
IN_LDO
LDO
SBB1
SBB2
MAX77642
ELECTRONIC LOADSSBB0
SYSA
MAX77642 EVALUATION KIT BOARD
IN_SBB
EN0
EN1
EN2
ENLDO
SYSAGND
RSEL_SBB0RSEL_SBB1RSEL_SBB2
RSEL_LDORSEL_IPK
PC
BATTERY
+
MCU
I2CUSB
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Evaluates: MAX77642MAX77642 Evaluation Kit
Figure 3. MAX77642 EV Kit Top View
SIMO TEST POINTS
LDO TEST POINTS
BATTERY INPUT
PEAK CURRENT
SELECTION JUMPERS
GUI CONNECTION SPARE
INDUCTORS
ENABLE JUMPERS SOLUTION AREA
REFERENCE DESIGNATORS
RSEL JUMPERS
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Evaluates: MAX77642MAX77642 Evaluation Kit
Figure 4. MAX77642 EV Kit Bottom View
PEAK CURRENT
SELECTION JUMPERS
ADCGUI
CONNECTION
ELECTRONIC LOADS
EEPROM FTDI CHIP
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Evaluates: MAX77642MAX77642 Evaluation Kit
Figure 5. MAX77642 EV Kit Solution Area
FILE DECRIPTION
MAX77642_SOLDERDOWN_EVKIT_REVB_BOM_2019-10-31.xlsx BOM
MAX77642_SOLDERDOWN_EVKIT_REVB_SCH_2019-10-31.pdf Schematic
MAX77642_SOLDERDOWN_EVKIT_REVB_PCB_2019-10-31.pdf Layout
MAX77642 EV Kit Files
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Evaluates: MAX77642MAX77642 Evaluation Kit
Quick StartFollow this procedure to become familiar with the EV kit.Note: In the following sections, software-related items are identified by bolding. Text in bold and underlined refers to items directly from the EV kit software. Text in italics and underlined refers to items from the Windows operating system.
Required Equipment ● MAX77642 EV Kit ● MAX77642 EV Kit GUI ● Windows-Based PC ● Power Supply ● Ammeter ● DVM ● Micro-USB Cable
Procedure1) Install the GUI software. Visit the product webpage at
http://www.maximintegrated.com/MAX77642evkit and navigate to Design Resources to download the latest version of the EV kit software. Save the EV kit software to a temporary folder and extract the files from the ZIP file.
2) Install EV kit shunts according to Table 1.3) Connect a Micro-B USB cable between the EV kit
USB port labelled “GUI” and the Windows-based PC.4) Apply a 3.7V supply (set for 100mA current limit)
through an ammeter (set for 10mA range) across the VBATT and GND2 terminals of the EV kit. Turn the supply on.
5) Open the GUI and select DeviceConnect in the upper-left corner. Wait for a CONNECTED_DEVICE_LIST window to pop up, and then press the Connect button.
6) Measure the voltages on SBB0, SBB1, SBB2, and LDO with a DMM.
This concludes the Quick Start procedure. During general device evaluation, set the ammeter range to great-er than or equal to 1A to minimize the impact of its series resistance.For more information on the GUI, see the Software section.
Table 1. Default Shunt Positions and Jumper DescriptionsREFERENCE DESIGNATOR
DEFAULT POSITION FUNCTION
J2 3-4
1-2: Connects RSEL_SBB2 to 0kΩ which programs SBB2 to 0.5V.3-4: Connects RSEL_SBB2 to 14kΩ which programs SBB2 to 1.2V.5-6: Connects RSEL_SBB2 to the on-board potentiometer to program SBB2’s output voltage. Refer to the “SIMO Output Voltage Configuration” section of the MAX77642/MAX77643 data sheet for more information.
J3 3-4
1-2: Connects RSEL_LDO to 7.15kΩ which programs the LDO to 0.8V.3-4: Connects RSEL_LDO to 80.6kΩ which programs the LDO to 1.8V.5-6: Connects RSEL_LDO to the on-board potentiometer to program the LDO’s output voltage. Refer to the “LDO Output Voltage Configuration” section of the MAX77642/MAX77643 data sheet for more information.
J4 1-2 1-2: Connects INLDO to SBB0.
J5 3-4
1-2: Connects RSEL_SBB1 to 14kΩ which programs SBB1 to 1.2V.3-4: Connects RSEL_SBB1 to 28kΩ which programs SBB1 to 1.8V.5-6: Connects RSEL_SBB1 to the on-board potentiometer to program SBB1’s output voltage. Refer to the “SIMO Output Voltage Configuration” section of the MAX77642/MAX77643 data sheet for more information.
http://www.maximintegrated.com/MAX77642evkit
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Evaluates: MAX77642MAX77642 Evaluation Kit
Table 1. Default Shunt Positions and Jumper Descriptions (continued)
REFERENCE DESIGNATOR
DEFAULT POSITION FUNCTION
J6 1-2
1-2: Connects RSET_IPK to 7.15kΩ.3-4: Connects RSET_IPK to 8.45kΩ.5-6: Connects RSET_IPK to an open-through-hole radial lead for through-hole resistors.Refer to the “Peak Current Configuration” section in the MAX77642/MAX77643 data sheet for more information on how to set the peak current limit of the SIMO.
J7 1-2 1-2: Connects EN0 to SYSA, enabling SBB0.2-3: Connects EN0 to GND, disabling SBB0.
J8 1-2
1-2: Connects RSEL_SBB0 to 113kΩ which programs SBB1 to 3.0V.3-4: Connects RSEL_SBB0 to 536kΩ which programs SBB1 to 4.4V.5-6: Connects RSEL_SBB0 to the on-board potentiometer to program SBB0’s output voltage. Refer to the “SIMO Output Voltage Configuration” section of the MAX77642/MAX77643 data sheet for more information.
J9 1-2 1-2: Connects EN1 to SYSA, enabling SBB1.2-3: Connects EN1 to GND, disabling SBB1.
J10 1-2 1-2: Connects SYSA to the VL side of the on-board level shifter
J11 1-2 1-2: Connects EN2 to SYSA, enabling SBB2.2-3: Connects EN2 to GND, disabling SBB2.
J12 1-2 1-2: Connects ENLDO to SYSA, enabling the LDO.2-3: Connects ENLDO to GND, disabling the LDO.
J201 1-2 1-2: Connects SBB0 to the onboard electronic load and ADC.J203 1-2 1-2: Connects SBB1 to the onboard electronic load and ADC.J205 1-2 1-2: Connects SBB2 to the onboard electronic load and ADC.J207 1-2 1-2: Connects LDO0 to the onboard electronic load and ADC.
J200 1-2 1-2: Connects the gate of the Q200 load FET to the U200 amplifier.
J202 1-2 1-2: Connects the gate of the Q201 load FET to the U201 amplifier.
J204 1-2 1-2: Connects the gate of the Q202 load FET to the U202 amplifier.
J206 1-2 1-2: Connects the gate of the Q203 load FET to the U203 amplifier.
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Evaluates: MAX77642MAX77642 Evaluation Kit
Detailed Description of Hardware (or Software)Enable Key OptionsThe MAX77642 features individual hardware enable pins for each of the SIMO outputs and the LDO. These enable pins can be connected to SYSA (to enable the corre-sponding resource) or GND (to disable the corresponding resource) through jumpers in J7, J9, J11, and J12.
Programming the Output VoltagesThe SIMO’s and LDO’s output voltages are programmed by connecting resistors from their corresponding RSEL pins to ground. The EV kit features pre-selected resis-tors which can be tied to RSEL pins through jumpers J2, J3, J5, and J8. Additionally, on-board potentiometers can be used to program the entire output voltage range. Refer to the SIMO Output Voltage Configuration and LDO Output Voltage Configuration sections of the MAX77642/MAX77643 data sheet for more information.
Programming the Inductor Peak Current The SIMO’s inductor peak current is programmed by connecting resistors from RSEL_IPK to ground. Several preselected resistors are placed on the EV kit and can be tied to the RSEL_IPK pin through the jumper J6. A through-hole resistor can be placed in R30 for additional options. See the Inductor Peak Current Setting section of the MAX77642/MAX77643 data sheet for more information.
Electronic LoadThe EV kit comes with an electronic load allowing the user to evaluate the SIMO and LDO load current capabilities. On-board circuits set the load current through the I2C interface. J201, J203, J205, J207 are used to connect the load to the output of the SBB0, SBB1, SBB2, and LDO respectively. To exercise the load transient response, remove J200 (for SBB0), J202 (for SBB1), J204 (for SBB2), and J206 (for LDO), and connect a signal genera-tor to the gate of the load MOSFET (pin 2 of the respective header). Drive the gate with a signal between 1V (off) and 3V (fully on) to apply transients to the output of the SIMO or LDO. Note that there are 0.1Ω sense resistors with test points (called VIL_SBB0, VIL_SBB1, and VIL_SBB2) and a 1Ω sense resistor with a test point (called VIL_LDO) for a 10:1 and 1:1 conversion of load current to voltage. See the Software section to learn how to set the load current from the GUI.
SoftwareThe graphical user interface (GUI) software allows for con-venient, quick, and thorough evaluation of the MAX77642.When the EV kit software detects that a MAX77642 EV kit is connected, only the “Load Control” portion of the GUI can be accessed.
InstallationVisit the product webpage at www.maximintegrated.com/MAX77642evkit and navigate to Design Resources to download the latest version of the EVKit software. Save the EVKit software to a temporary folder and decompress the ZIP file.
Windows DriversUpon connection of a Micro-USB cable between your PC and the EV kit for the first time, wait a few minutes for Windows to automatically install drivers.
Graphical User Interface Details (GUI)The GUI drives I2C communication with the EV kit. Every control in the GUI (excluding the Load Control and ADC/AMUX tabs) corresponds directly to a register within the MAX77642. Hover your cursor over control names for a description of that register. Refer to the IC data sheet for the complete register map.
Load Control TabThe Load Control tab contains controls for load currents on the regulator outputs. The GUI is capable of setting steady-state, transient, and random load currents. To set a load current, use the slider bar or text field to input a value (mA) and check the Enable box. Shuffle through the modes to exercise different load conditions.The offset and gain values are set by Maxim and do not need to be altered.
Figure 6. Electronic Load Block Diagram
MAX5825 DAC
JUMPER A
1ΩSENSE RESISTOR
SENSE
JUMPER BREGULATOR OUTPUT
http://http://http://http://
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Evaluates: MAX77642MAX77642 Evaluation Kit
#Denotes RoHS compliant.
PART IC TYPE
MAX77642EVKIT# MAX77642ANA+ EV Kit
MAX77642 EV Kit Bill of Materials
Ordering Information
ITEM REF_DES DNI/DNP QTY MFG PART # MANUFACTURER VALUE DESCRIPTION COMMENTS
1
AIN0, AIN1, AIN6, AIN7, EN0-EN2, ENLDO, RSET_IPK, RSET_LDO, RSET_SB0-RSET_SB2, SCL, SDA, VIL_LDO0, VIL_SBB0-VIL_SBB2
- 19 5002 KEYSTONE N/ATEST POINT; PIN DIA=0.1IN; TOTAL LENGTH=0.3IN; BOARD HOLE=0.04IN; WHITE; PHOSPHOR BRONZE WIRE SILVER;
2 C1, C9, C16, C29, C36, C41, C42, C239-C242, C269-C271 - 14C0402C105K8PAC;CC0402KRX5R6BB105 KEMET;YAGEO 1UF CAP; SMT (0402); 1UF; 10%; 10V; X5R; CERAMIC
3 C4 - 1
C0402C103K5RAC;GRM155R71H103KA88;C1005X7R1H103K050BE;CL05B103KB5NNN;UMK105B7103KV
KEMET;MURATA;TDK;SAMSUNG ELECTRONIC;TAIYO YUDEN 0.01UF CAP; SMT (0402); 0.01UF; 10%; 50V; X7R; CERAMIC
4 C5, C8, C11, C14 - 4 C1608X5R1A226M080AC; GRM188R61A226ME15 TDK;MURATA 22UF CAP; SMT (0603); 22UF; 20%; 10V; X5R; CERAMIC
5 C6 - 1 16TQC100MYF PANASONIC 100UF CAP; SMT (7343); 100UF; 20%; 16V; TANTALUM
6
C7, C22, C25-C27, C30, C32-C35, C37-C39, C63, C65-C67, C73, C202, C207, C212, C217, C221-C223, C234, C235, C237, C244, C268, C272-C277
- 36
GRM155R71E104KE14;C1005X7R1E104K050BB;TMK105B7104KVH;CGJ2B3X7R1E104K050BB
MURATA;TDK;TAIYO YUDEN;TDK 0.1UF CAP; SMT (0402); 0.1UF; 10%; 25V; X7R; CERAMIC
7 C15 - 1 GRM155R61C225KE44 MURATA 2.2UF CAP; SMT (0402); 2.2UF; 10%; 16V; X5R; CERAMIC 8 C21, C28, C31 - 3 C1005X5R1A475K050 TDK 4.7UF CAP; SMT (0402); 4.7UF; 10%; 10V; X5R; CERAMIC 9 C23, C24 - 2 GRM0335C1H270JA01 MURATA 27PF CAP; SMT (0201); 27PF; 5%; 50V; C0G; CERAMIC
10 C68, C69, C71, C72 - 4 CL05B103KP5NNN SAMSUNG ELECTRONICS 0.01UF CAP; SMT (0402); 0.01UF; 10%; 10V; X7R; CERAMIC
11 C200, C205, C210, C215, C220, C238, C248-C253 - 12C0402C472K5RAC;GRM155R71H472KA01;C1005X7R1H472K050BA
KEMET;MURATA;TDK 4700PF CAP; SMT (0402); 4700PF; 10%; 50V; X7R; CERAMIC;
12 C201, C206, C211, C216 - 4 C0402H102J5GAC KEMET 1000PF CAP; SMT (0402); 1000PF; 5%; 50V; C0G; CERAMIC
13 C203, C204, C208, C209, C213, C214, C218, C219 - 8C0402C180J5GAC;GRM1555C1H180JA01;C1005C0G1H180J050BA
KEMET;MURATA;TDK 18PF CAP; SMT (0402); 18PF; 5%; 50V; C0G; CERAMIC
14 DS2 - 1 LTST-C190CKT LITE-ON ELECTRONICS INC. LTST-C190CKT DIODE; LED; STANDARD; RED; SMT (0603); PIV=5.0V; IF=0.04A; -55 DEGC TO +85 DEGC
15 GND1, GND5-GND7 - 4 5011 KEYSTONE N/ATEST POINT; PIN DIA=0.125IN; TOTAL LENGTH=0.445IN; BOARD HOLE=0.063IN; BLACK; PHOSPHOR BRONZE WIRE SILVER PLATE FINISH;
16 GND2-GND4, GND8, GND10, INSBB - 6 9020 BUSS WEICO WIRE MAXIMPAD EVK KIT PARTS; MAXIM PAD; WIRE; NATURAL; SOLID; WEICO WIRE; SOFT DRAWN BUS TYPE-S; 20AWG
17 INLDO, LDO, SBB0-SBB2, SYSA, VUSB - 7 5010 KEYSTONE N/A TEST POINT; PIN DIA=0.125IN; TOTAL LENGTH=0.445IN; BOARD HOLE=0.063IN; RED; PHOSPHOR BRONZE WIRE SIL;
18 J1 - 1 10118193-0001LF FCI CONNECT 10118193-0001LF CONNECTOR; FEMALE; SMT; MICRO USB B TYPE RECEPTACLE; RIGHT ANGLE; 5PINS
19 J2, J3, J5, J6, J8 - 5 TSW-103-07-L-D SAMTEC TSW-103-07-L-D CONNECTOR; MALE; THROUGH HOLE; THROUGH HOLE 0.025 POST HEADER; STRAIGHT; 6PINS
20 J4, J10, J200-J207 - 10 TSW-102-07-T-S SAMTEC TSW-102-07-T-S CONNECTOR; THROUGH HOLE; TSW SERIES; SINGLE ROW; STRAIGHT; 2PINS; -55 DEGC TO +105 DEGC
21 J7, J9, J11, J12 - 4 PEC03SAAN SULLINS ELECTRONICS CORP. PEC03SAAN EVKIT PART-CONNECTOR; MALE; THROUGH HOLE; BREAKAWAY; STRAIGHT; 3PINS; -65 DEGC TO +125 DEGC;
22 L1 - 1 DFE201612E-1R5M MURATA 1.5UH INDUCTOR; SMT (0806); METAL; 1.5UH; 20%; 2.30A 23 L2, L4, L5 - 3 BLM18AG601SN1 MURATA 600 INDUCTOR; SMT (0603); FERRITE-BEAD; 600; TOL=+/-; 0.5A
24 L3 - 1 DFE201210S-2R2M=P2 MURATA 2.2UH EVKIT PART-INDUCTOR; SMT (0805); MAGNETICALLY SHIELDED; 2.2UH; TOL=+/-20%; 1.8A
25 L7 - 1 DFE201210U-1R5M=P2 TOKO 1.5UH INDUCTOR; SMT (0805); METAL ALLOY CHIP; 1.5UH; TOL=+/-20%; 1.9A
26 L8 - 1 DFE201612E-1R0M MURATA 1UH INDUCTOR; SMT (0806); WIREWOUND CHIP; 1UH; TOL=+/-20%; 2.9A
27 L9 - 1 DFE201612E-2R2M MURATA 2.2UH INDUCTOR; SMT (0806); WIREWOUND CHIP; 2.2UH; TOL=+/-20%; 1.8A
28 MISC1 - 1 AK67421-2 ASSMANN AK67421-2CABLE; MALE; USB; USB2.0 MICRO CONNECTION CABLE; USB B MICRO MALE TO USB A MALE; 2000 MILLIMETERS; 5PINS-4PINS
29 Q200-Q203 - 4 IRFHM8337TRPBF INTERNATIONAL RECTIFIER IRFHM8337TRPBF TRAN; HEXFET POWER MOSFET; NCH; PQFN8; PD-(2.8W); I-(18A); V-(30V)
30 Q205 - 1 FDN360P FAIRCHILD SEMICONDUCTOR FDN360P TRANSISTOR, MOSFET P-CHANNEL, SUPERSOT-3, PD=0.5W, ID=-2.0A, VDSS=-30V,VGSS=+/-20V
31 Q206 - 1 2N7002;2N7002;2N7002;2N7002
DIODES INCORPORATED;ST MICROELECTRONICS;ON SEMICONDUCTOR;MICRO COMMERCIAL COMPONENTS
2N7002 TRAN; ; NCH; SOT-23; PD-(0.33W); IC-(0.5A); VCEO-(60V); -55 DEGC TO +150 DEGC
32 R1 - 1
CRCW06030000ZS;MCR03EZPJ000;ERJ-3GEY0R00;CR0603AJ/-000ELF
VISHAY;ROHM SEMICONDUCTOR;PANASONIC;BOURNS
0 RES; SMT (0603); 0; JUMPER; JUMPER; 0.1000W
33 R2, R19 - 2 ERJ-3EKF1402;CRCW060314K0FK PANASONIC;VISHAY 14K RES; SMT (0603); 14K; 1%; +/-100PPM/DEGC; 0.1000W
34 R3, R277, R279 - 3 CRCW06030000Z0 VISHAY DALE 0 RES; SMT (0603); 0; JUMPER; JUMPER; 0.1000W
35 R4, R7, R18, R26 - 4 3296Y-1-105LF BOURNS 1M RES; THROUGH HOLE-RADIAL LEAD; 1M; 10%; +/-100PPM/DEGC; 0.5W
36 R5, R27 - 2 ERJ-3EKF7151 PANASONIC 7.15K RES; SMT (0603); 7.15K; 1%; +/-100PPM/DEGC; 0.1000W
37 R6 - 1CRCW060380K6FK;ERJ-3EKF8062;RC0603FR-0780K6L
VISHAY;PANASONIC;YAGEO 80.6K RES; SMT (0603); 80.6K; 1%; +/-100PPM/DEGK; 0.1000W
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Evaluates: MAX77642MAX77642 Evaluation Kit
MAX77642 EV Kit Bill of Materials (continued)ITEM REF_DES DNI/DNP QTY MFG PART # MANUFACTURER VALUE DESCRIPTION COMMENTS
38 R8 - 1 ERJ-3EKF1133 PANASONIC 113K RES; SMT (0603); 113K; 1%; +/-100PPM/DEGC; 0.1000W
39 R9 - 1 ERJ-3EKF5363 PANASONIC 536K RES; SMT (0603); 536K; 1%; +/-100PPM/DEGC; 0.1000W
40 R10, R11 - 2ERJ-2RKF27R0X;RC0402FR-0727RL;CRCW040227R0FK
PANASONIC;YAGEO PHICOMP;VISHAY DALE 27 RES; SMT (0402); 27; 1%; +/-100PPM/DEGC; 0.0630W
41 R12 - 1 ERJ-2RKF1202 PANASONIC 12K RES; SMT (0402); 12K; 1%; +/-100PPM/DEGC; 0.1000W
42 R13, R210, R231, R244, R257, R291, R301, R307 - 8 CRCW04021M00FK VISHAY DALE 1M RES; SMT (0402); 1M; 1%; +/-100PPM/DEGC; 0.0630W
43 R14, R207, R208, R229, R230, R242, R243, R254, R255 - 9 ERJ-2RKF1001 PANASONIC 1K RES; SMT (0402); 1K; 1%; +/-100PPM/DEGC; 0.1000W
44 R16 - 1CRCW04024752FK; 9C04021A4752FLHF3; CRCW040247K5FK
VISHAY DALE;YAGEO;VISHAY DALE 47.5K RES; SMT (0402); 47.5K; 1%; +/-100PPM/DEGC; 0.0630W
45R20, R33, R52-R54, R204, R225, R238, R251, R259, R286, R290, R292, R302-R306
- 18 ERJ-2GE0R00 PANASONIC 0 RES; SMT (0402); 0; JUMPER; JUMPER; 0.1000W
46 R21, R22 - 2 ERJ-2GEJ472 PANASONIC 4.7K RES; SMT (0402); 4.7K; 5%; +/-200PPM/DEGC; 0.1000W 47 R23 - 1 CRCW0402169KFK VISHAY DALE 169K RES; SMT (0402); 169K; 1%; +/-100PPM/DEGK; 0.0630W 48 R25 - 1 CRCW060328K0FK VISHAY 28K RES; SMT (0603); 28K; 1%; +/-100PPM/DEGC; 0.1000W 49 R28 - 1 CRCW0402470RFK VISHAY DALE 470 RES; SMT (0402); 470; 1%; +/-100PPM/DEGC; 0.0630W
50 R29 - 1 RC0603FR-078K45L YAGEO PHYCOMP 8.45K RES; SMT (0603); 8.45K; 1%; +/-100PPM/DEGC; 0.1000W
51 R31, R32 - 2 CRCW04022K20FK;RC0402FR-072K2L VISHAY DALE;YAGEO PHICOMP 2.2K RES; SMT (0402); 2.2K; 1%; +/-100PPM/DEGC; 0.0630W
52 R201, R222, R235, R248, R289 - 5 9C04021A1000FL; RC0402FR-07100RL PANASONIC;YAGEO PHYCOMP 100 RES; SMT (0402); 100; 1%; +/-100PPM/DEGC; 0.0630W
53 R202, R223, R236, R249 - 4 CRCW0402680RFK;RC0402FR-07680RL VISHAY DALE;YAGEO PHICOMP 680 RES; SMT (0402); 680; 1%; +/-100PPM/DEGC; 0.0630W
54 R203, R205, R206, R224, R226, R228, R237, R239, R240, R250, R252, R253 - 12 ERJ-2RKF2002 PANASONIC 20K RES; SMT (0402); 20K; 1%; +/-100PPM/DEGC; 0.1000W
55 R211, R233, R245 - 3 CRL1206-JW-R100ELF BOURNS 0.1 RES; SMT (1206); 0.1; 1%; +/-200PPM/DEGC; 0.2500W
56 R212, R213, R227, R234, R246, R247 - 6 CRCW0402787KFK VISHAY DALE 787K RES; SMT (0402); 787K; 1%; +/-100PPM/DEGC; 0.0630W
57 R17, R24, R214, R283 - 4 ANY ANY 100K RESISTOR; 0402; 100K; 1%; 100PPM; 0.0625W; THICK FILM; FORMFACTOR
58 R258 - 1 CSR1206FT1R00 STACKPOLE ELECTRONICS INC. 1 RES; SMT (1206); 1; 1%; +/-100PPM/DEGC; 0.5000W
59 R281, R282, R287, R288 - 4 CRCW040210K0FK;RC0402FR-0710KL VISHAY DALE;YAGEO PHICOMP 10K RES; SMT (0402); 10K; 1%; +/-100PPM/DEGC; 0.0630W
60 R293, R295, R297, R299 - 4 ERJ-2RKF4703 PANASONIC 470K RES; SMT (0402); 470K; 1%; +/-100PPM/DEGC; 0.0630W
61 R294, R296, R298, R300 - 4 CRCW0402649KFK VISHAY DALE 649K RES; SMT (0402); 649K; 1%; +/-100PPM/DEGC; 0.0630W
62 SU1-SU19 - 19 S1100-B;SX1100-B;STC02SYANKYCON;KYCON;SULLINS ELECTRONICS CORP. SX1100-B
TEST POINT; JUMPER; STR; TOTAL LENGTH=0.24IN; BLACK; INSULATION=PBT;PHOSPHOR BRONZE CONTACT=GOLD PLATED
63 U1 - 1 MAX77642ANA+ MAXIM MAX77642ANA+
EVKIT PART - IC; PMIC; ULTRA-LOW POWER PMIC FEATURING HIGHLY EFFICIENCY; SINGLE-INDUCTOR; 3-OUTPUT BUCK-BOOST; 1-LDO; WLP25; PACKAGE OUTLINE DRAWING: 21-100480; PACKAGE CODE: N252B2+1
64 U2 - 1 FT2232HL FUTURE TECHNOLOGY DEVICES INTL LTD. FT2232HLIC; MMRY; DUAL HIGH SPEED USB TO MULTIPURPOSE UART/FIFO; LQFP64
65 U3, U4 - 2 MAX8512EXK+ MAXIM MAX8512EXK IC, VREG, Ultra-Low-Noise, High PSRR, Adjustable Vout, SC70-5
66 U5 - 1 MAX14611ETD+ MAXIM MAX14611ETD+ IC; TRANS; QUAD BIDIRECTIONAL LOW-VOLTAGE LOGIC LEVEL TRANSLATOR; TDFN14-EP
67 U7 - 1 AT24CS02-SSHM MICROCHIP AT24CS02-SSHM IC; EPROM; I2C-COMPATIBLE TWO-WIRE SERIAL EEPROM; 150MIL; NSOIC8
68 U200-U203 - 4 MAX44251AUA+ MAXIM MAX44251AUA+ IC; OPAMP; ULTRA-PRECISION; LOW-NOISE OP AMP; UMAX8
69 U205 - 1 MAX5825AWP+ MAXIM MAX5825AWP+TIC; DAC; ULTRA-SMALL; OCTAL CHANNEL; 12-BIT BUFFERED OUTPUT DAC WITH INTERNAL REFERENCE AND I2C INTERFACE; WLP20
70 U209 - 1 MAX11614EEE+ MAXIM MAX11614EEE+ IC; ADC; LOW-POWER; 8-CHANNEL; I2C; 12-BIT ADC IN ULTRA-SMALL PACKAGE; QSOP16
71 U210 - 1 MAX6071AAUT41+ MAXIM MAX6071AAUT41+ IC; VREF; LOW NOISE; HIGH-PRECISION SERIES VOLTAGE REFERENCE; SOT23-6
72 U211 - 1 MAX1697UEUT+ MAXIM MAX1697UEUT+ IC; INV; INVERTING CHARGE PUMP WITH SHUTDOWN; SOT23-6 73 Y1 - 1 7M-12.000MAAJ TXC CORPORATION 12MHZ CRYSTAL; SMT; 18PF; 12MHZ; +/-30PPM; +/-30PPM
74 PCB - 1 MAX77642 MAXIM PCB PCB:MAX77642 -
75 R30 DNI 2 0667-0-15-01-30-27-10-0 MILL-MAX N/A PIN RECEPTACLE; PIN DIA=0.025IN; TOTAL LENGTH=0.161IN; BOARD HOLE=0.057IN; GOLD OVER NICKEL PLATE FINISH
76 L6 DNP 0 MLP1608VR47D TDK 0.47UH INDUCTOR; SMT (0603); SHIELDED; 0.47UH; TOL=+/-0.3nH; 0.8A 77 C2, C3, C18, C53, C54, C56-C59, C61, C62 DNP 0 N/A N/A OPEN CAPACITOR; SMT (0402); OPEN; FORMFACTOR 78 R15, R260 DNP 0 N/A N/A OPEN RESISTOR; 0402; OPEN; FORMFACTOR 79 R30 DNP 0 N/A N/A OPEN RES; THROUGH HOLE-RADIAL LEAD; OPEN; N/A; N/A; N/A
TOTAL 308
-
Maxim Integrated │ 11www.maximintegrated.com
Evaluates: MAX77642MAX77642 Evaluation Kit
Part Number
A0=A1=A2=GND
*MAX5825 ALSO RESPONDS TO AN I2C BROADCAST ADDRESS 0b0010 1000
**AT24CS02 ALSO RESPONDS TO 0b1011 0001 FOR READING THE SERIAL NUMBER
(DAC)
0x330b011 0011
0x1F0b001 1111
AT24CS02(EEPROM)
MAX5825
(ADC)
0b0011 11100x10 *
0b0010 1000
0x3E
N/A
8-bit WriteConfiguration
ADDR1=ADDR0=VDDIO
0b1010 0001
8-bit Read
MAX11614
0x3F0b0011 1111
7-bit
0x660b0110 0110
0x670b0110 0111
0b1010 00000x50 **
0b101 0000
MAX77642 EV Schematic Diagrams
-
Maxim Integrated │ 12www.maximintegrated.com
Evaluates: MAX77642MAX77642 Evaluation Kit
R1
R30
3
2
1
J12
3
2
1
J11
3
2
1
J9
3
2
1
J7
R29
65
43
21
J6
R27
R6
65
43
21
J3
R5
3
2
1
R7
3
2
1
R4
R8
65
43
21
J2
R9
3
2
1R
26
R25
R19
65
43
21
J5
R2
3
2
1
R18
RSE
T_IP
K
RSE
T_LD
O
RSE
T_SB
2
RSE
T_SB
1
ENLD
O
EN0
EN1
21
C6
2 1
J4
C3
C1
INSB
B
E5 E4E3E2
E1
D5
D4
D3
D2
D1
C5
C4
C3
C2
C1
B5B4 B3 B2B1
A5 A4A3 A2A1
U1
65
43
21
J8
C9
LDO
21
L1
C18
C2
C15
INLD
O
R3SY
SA
SBB0
SBB1
SBB2
EN2
RSE
T_SB
0
C14
C11
C8
C4
C5
RSE
T_SB
B2
TSW
-103
-07-
L-D
536K
14K
1M
028K11
3KTS
W-1
03-0
7-L-
D
RSE
T_SB
B1
RSE
T_SB
B0
RSE
T_LD
O
RSE
T_SB
B0
100U
F
2.30
A
RSE
T_IP
K
8.45
K
TSW
-103
-07-
L-D
14K
RSE
T_LD
O
1M80.6
K1M
TPTP
0.01
UF
22U
F
IN_S
BB
10V
1UF
SYSA
7.15
K
TP
10V
22U
F
SMT
(040
2)
1UF
0603
22U
F
OPE
N04
02_F
F2.
2UF
EN1
PEC
03SA
AN
TP
ENLD
OEN
2
PEC
03SA
ANPE
C03
SAAN
OPE
N
1.5U
HLX
B
0603
TP
0
TP
16V
TP
22U
F
TPTPTP
10V
10V
TP
10V
10V
TP
PEC
03SA
AN
LDO
OPE
N
SYSA
EN0
TSW-102-07-T-S
TP
DFE
2016
12E-
1R5M
7.15
K
OPE
NTH
RO
UG
H H
OLE
-RAD
IAL
LEAD
TSW
-103
-07-
L-D
TSW
-103
-07-
L-D
SYSA
TP
RSE
T_SB
B2
RSE
T_SB
B1
RSE
T_IP
K
1MTP
0402
_FF
MAX
IMPA
D
SBB2
SBB1
INLD
OEN
LDO
SBB0
EN1
EN0
BST
EN2
LXA
MAX
7764
2AN
A+
651 3
42
651 3
42
3
2
1
3
2
1
651 3
42
3
2
1
651 3
42
3
2
1
+
PGN
D
LXA
IN_S
BB
GN
D
EN2
BST
LXB
SBB2
EN0
EN1
SBB0
LXB
SBB1
RSE
T_IP
K
ENLD
O
GN
D
GN
D
RSE
T_SB
B0
RSE
T_LD
O
SYSA
IN_L
DO
LDO
RSE
T_SB
B1
RSE
T_SB
B2
SYSA
651 3
42
MAX77642 EV Kit Schematic Diagrams (continued)
-
Maxim Integrated │ 13www.maximintegrated.com
Evaluates: MAX77642MAX77642 Evaluation Kit
MAX77642 EV Kit Schematic Diagrams (continued)
Extra
cap
acito
rs n
ear t
est p
oint
s.
Gro
und
test
loop
s
Spar
e in
duct
ors
SU18
SU17
SU16
SU19
SU15
SU14
SU13
SU9
SU12
SU11
SU10
SU8
SU7
SU6
SU5
SU3
SU4
SU2
SU1
C57
C54
21
L7
21
L9
GN
D1
GN
D2
GN
D3
GN
D4
GN
D6
GN
D5
21
L3
GN
D10
GN
D8
GN
D7
21
L8
21
L6
C59
C63
C69
C68 C
71 C72
C56
C61
C62
C53
C58
C65 C
66
C67
0.1U
F
J3(3
:4)
J2(3
:4)
J5(3
:4)
J201
(1:2
)
J200
(1:2
)
J4(1
:2)
J6(1
:2)
0402
_FF
2.2U
H
0.1U
F
25V
0.01
UF
0.01
UF
10V
0.01
UF
OPE
N
1UH
OPE
N
0402
_FF
0402
_FF
SBB0
MAX
IMPA
D
MAX
IMPA
D
0.1U
F
OPE
NO
PEN
25V
0.1U
F
OPE
N
0402
_FF
OPE
NO
PEN
0402
_FF
TP TP TP
MAX
IMPA
D
MAX
IMPA
D
1.80
A
0603
2.2U
H
1.5U
H
25V
1.9A
0402
_FF
10V
10V
0402
_FF
OPE
N
J8(1
:2)
2.9A
DFE
2016
12E-
2R2M 1.
8A
J7(1
:2)
J9(1
:2)
J202
(1:2
)
J203
(1:2
)
J204
(1:2
)
J206
(1:2
)
J207
(1:2
)
J11(
1:2)
J10(
1:2)
DN
I
DFE
2012
10S-
2R2M
=P2
10V
0.01
UF
LDO
0402
_FF
DFE
2012
10U
-1R
5M=P
2
SBB1
25V
SBB2
J12(
1:2)
TP
MAX
IMPA
D
J205
(1:2
)
DFE
2016
12E-
1R0M
SHU
NT
SHU
NT
SHU
NT
SHU
NT
SHU
NT
SHU
NT
SHU
NT
SHU
NT
SHU
NT
SHU
NT
SHU
NT
SHU
NT
SHU
NT
SHU
NT
SHU
NT
SHU
NT
SHU
NT
SHU
NT
SHU
NT
-
Maxim Integrated │ 14www.maximintegrated.com
Evaluates: MAX77642MAX77642 Evaluation Kit
MAX77642 EV Kit Schematic Diagrams (continued)
GAI
N O
F 20
V/V
GAI
N O
F 20
V/V
Dig
ital t
o An
alog
Con
verte
r
GAI
N O
F 20
V/V
Res
isto
r div
ider
s di
vide
SBB
x vo
ltage
s by
2 b
efor
e co
nnec
ting
to A
DC
.
GAI
N O
F 20
V/V
MAX
5825
Ref
eren
ce is
set
to 2
.048
V.
Ampl
ifier
Vss
Sup
ply
R24
5
R23
3
R21
1
R30
6
R30
5
21
J207
21
J206
21
J205
21
J204
21
J203
21
J202
21
J201
21
J200
C27
7
C27
6
C27
5
C27
4
C27
3
R30
0R
299
R29
8R
297
R29
6R
295
R29
4R
293
C26
8C
272
C26
9C
271
C27
0
R28
91
2
4
365
U21
1
765
U20
3
48
123
U20
3
765
U20
2
48
123
U20
2
48
123
U20
1
C20
0
C25
1
R25
0
C21
6R
248
C21
7
R24
9
R25
1
C21
9R25
3
R25
5
C21
8
R25
4
R25
7
R25
8
321
4
8765
Q20
3
VIL_
LDO
0C24
2
R26
0C
220
R25
9
R25
2
C25
0
R23
7
C21
1R
235
C21
2
R23
6
R23
8
C21
3R23
9
R24
3
C21
4
R24
2
R24
4
321
4
8765
Q20
2
VIL_
SBB2
C24
1
R24
7C
215
R24
6
R24
0
C24
8
R22
4
C20
6R
222
C20
7
R22
3
R22
5
C20
9R22
8
MAX
4425
1AU
A+7
65U
201
R23
0
R22
9R
226
C20
8
R23
1
VIL_
SBB1
321
4
8765
Q20
1R22
7
C24
0
R23
4C
210
765
U20
0
48
123
U20
0C
239
R28
3
VIL_
SBB0
R21
4
A3
B3B4 B5D
3
A2A1B1B2C2
C1
D1
D2
C3
D4
A4A5 D5
C5
C4
U20
5
C22
3
C22
1C
222
R20
3C
205
R21
3
R21
2
R20
4
R20
8
R20
7
R21
0
123
4
5678 Q
200
R20
6 R20
5
C20
4
C20
3
C20
2
R20
2R
201
C20
1
0.1U
F
MAX
1697
UEU
T+
100K
TP
TP1K
TSW
-102
-07-
T-S
TP1K
TP1K
0.1
SBB1
TSW
-102
-07-
T-S
1UF
10V
1M
649K
MAX
4425
1AU
A+
VUSB
ISET
_SBB
2
ISET
_SBB
1
ISET
_SBB
0
4700
PF
50V
4700
PF
+3.3
V
IRFH
M83
37TR
PBF
4700
PF
787K
IRFH
M83
37TR
PBF
0
0.25
W
649K
TSW
-102
-07-
T-S
IRFH
M83
37TR
PBF
1M
470K
0.1
1206
1K
0.25
W12
0664
9K47
0K
1K
0.25
W12
06+3
.3V
18PF2
0K20K
20K20
K
20K
10V
18PF2
0K
18PF
MAX
4425
1AU
A+
100
50V
VSS
MAX
4425
1AU
A+
+3.3
V
0.1U
F25
V
50V
100K
+3.3
V
SCL_
FTD
ISD
A_FT
DI
TSW
-102
-07-
T-S
ISET
_SBB
1IS
ET_S
BB2
VSS
VSS
OPE
N
680
TSW
-102
-07-
T-S
787K
18PF
680
VSS
100
ISET
_SBB
0
18PF
SBB0
18PF
+3.3
V
MAX
4425
1AU
A+
1M
787K
787K
787K
ADC
_SBB
0
649K
470K
+3.3
V
680
ADC
_SBB
2
ADC
_SBB
1
TSW
-102
-07-
T-S
18PF 18
PF
MAX
4425
1AU
A+
1 0.50
W
1M
1UF
10V
1UF
10V
1UF
4700
PF
4700
PF
4700
PF
50V
4700
PF
1000
PF
50V
1000
PF
50V
1000
PF
50VV
USB
25V
0.1U
F
VUSB
0.1U
F
25V 25V
0.1U
FVU
SB
25V
0.1U
F
MAX
5825
AWP+
T
0.1U
F
0.1U
F
100
0.1U
F
0.1U
F
0.1U
F
0.1U
F
1UF
0.1U
F0.
1UF
1UF
1UF
0
MAX
4425
1AU
A+
0
MAX
4425
1AU
A+
0VS
S
0
0
0
20K
20K 20
K
20K
1K
1K 1K
+3.3
V
100
787K
25V
0.1
TSW
-102
-07-
T-S
4700
PF
1000
PF10
068
047
0K
LDO
ADC
_LD
O
1206
20K
ISET
_LD
O
TSW
-102
-07-
T-S
IRFH
M83
37TR
PBF
20K
ISET
_LD
O
50V
SBB2
OU
T
C1-
C1+
GN
D
IN SHD
N
OU
TBIN
B+
INB-
INA+
OU
TA
INA-
VDD
VSS
OU
TBIN
B+
INB-
INA+
OU
TA
INA-
VDD
VSS
INA+
OU
TA
INA-
VDD
VSS
SD
G
SD
G
OU
TBIN
B+
INB-
SD
G
OU
TBIN
B+
INB-
INA+
OU
TA
INA-
VDD
VSS
SD
G
M/Z
GND
LDAC
CLR
IRQ
SDA
SCL
ADD
R0
ADD
R1
VDDIO
VDD
OU
T7
OU
T6
OU
T5
OU
T4
OU
T3
OU
T2
OU
T1
OU
T0R
EF
-
Maxim Integrated │ 15www.maximintegrated.com
Evaluates: MAX77642MAX77642 Evaluation Kit
ADC
4.09
6V re
fere
nce
R30
2
AIN
6
R30
7C
253
AIN
0
R29
1
AIN
1
R29
2
R29
0
R28
7
2
1
3
Q20
5 2
1
3
Q20
6
R30
1
C25
2
AIN
7R
281
R28
2C
238
16
14 131
4
3
2
15
12111098765
U20
9
C24
9
R30
4
R30
3C
244
C23
7
R28
8
R28
6
R27
9
C23
5
R27
7
C23
4
56 4
21 3
U21
0
2N70
02
TP
0
TP
TPTP
VAD
C
MAX
6071
AAU
T41+
AIN
1AD
C_S
BB0
ADC
_SBB
1AD
C_S
BB2
ADC
_LD
O
4700
PF
SDA_
FTD
ISC
L_FT
DI
4700
PF
4700
PF
AIN
710
K
AIN
6
AIN
0
1M47
00PF
10K
1M0
0
1M
0
25V
FDN
360P
10K
VAD
C
00.
1UF
0
0
ADC
_REF
0
0.1U
F
0.1U
F
25V
0.1U
F
VUSB
10K
MAX
1161
4EEE
+
G
D
S
G
SD
NC
NC
NC
REF
VDD
GN
D
SDA
SCL
AIN
7
AIN
6
AIN
5
AIN
4
AIN
3
AIN
2
AIN
1
AIN
0
VOU
T_F
VOU
T_S
VIN
ENAB
LE
GN
D_S
GN
D_F
MAX77642 EV Kit Schematic Diagrams (continued)
-
Maxim Integrated │ 16www.maximintegrated.com
Evaluates: MAX77642MAX77642 Evaluation Kit
EEPR
OM
3.3V
LD
O1.
8V L
DO
LEVE
L SH
IFTE
R2
1
J10
R33
10
14
11
4
6521
891213
7
15
3
U5
SDA
SCL
C7
R32
R31
C16
R52
C73
R20
R54
R53
7
8
56
4
321
U7
VUSB
R23
R24
C42
C41
R16
10V
C36
C29
R22
R21
C37
C39
C34
C32
C30
C35
C31
C27
C26
21
L5
R15 C
28C
25
R14
R12
R13
KA
DS2
R28
3
51
2
4
U4
R17
3
51
2
4
U3
C38
C33
21
L4
R10
R11
C22
C21
4950
9
4
64
37
12
56
42
31
20
1336
146
6032
51
47
35
25
15
11
5
1
6163 6287
4645444341403938 5958575554535248
10
2423222119181716 3433323029282726
U2
C24
31
42
Y1
C23
21
L2
11
10
9
8
7
6
54321
J1
25V
0.1U
F
0
0
2.2K
0402
04022
.2K
10V
1UF
0402
MAX
1461
1ETD
+
+3.3
V
VPH
Y
SDA_
FTD
I
0.1U
F
100K
+1.8
V
0402
VUSB
TP
27
VUSB
4.7U
F04
020.
1UF
SMT
(020
1)
FTD
I_D
P
12M
HZ
FTD
I_O
SCO
27PF
27PF
+3.3
V12
K
4.7K
4.7K
FTD
I_R
EF
0.1U
F
25V
25V
0.1U
F
25V
25V
10V
0.1U
F
25V
4.7U
F
0.1U
F0.
1UF
0.1U
F0.
1UF
25V
25V
25V
25V
0.1U
F
25V
0.1U
F
25V
10V
25V
1011
8193
-000
1LF
USB
_DM
27
0402
0
AT24
CS0
2-SS
HM
0
0
SCL_
FTD
I
100K
0402
VPLL
VREG
OU
T
MAX
8512
EXK
1UF
0402
0402169K
VUSB
470
0402
+3.3
V
+3.3
V
OPE
N04
02_F
F
600
0402
10V
LTST
-C19
0CKT
060360
0
0603
10V
4.7U
F04
02
0402
1M
FTD
I_O
SCI
25V
1K
+3.3
VVC
C_U
SB60
0
0.1U
F
1UF
10V
0402
040247
.5K
SMT
(020
1)
FT22
32H
L
0603
+3.3
V
0402
1UF
+1.8
V
MAX
8512
EXK
USB
_DP
FTD
I_D
M
+3.3
V
0.1U
F
0402
RST
#
SCL_
FTD
I
0402
1UF
10V
SDA_
FTD
I
TSW
-102
-07-
T-S
SYSA
TS
EP
NC
NC
I/O V
CC
1
VCC
I/O V
CC
2
I/O V
CC
3
I/O V
CC
4
GND
I/O V
L4
I/O V
L3
I/O V
L2
VL
I/O V
L1
VCC
WP
SCL
SDA
GN
D
A2A1A0
BCBU
S7
BCBU
S6
BCBU
S5
BCBU
S4
BCBU
S3
BCBU
S2
BCBU
S1
BCBU
S0
ACBU
S7
ACBU
S6
ACBU
S5
ACBU
S4
ACBU
S3
ACBU
S2
ACBU
S1
ACBU
S0
BDBU
S7
BDBU
S6
BDBU
S5
BDBU
S4
BDBU
S3
BDBU
S2
BDBU
S1
BDBU
S0
ADBU
S7
ADBU
S6
ADBU
S5
ADBU
S4
ADBU
S3
ADBU
S2
ADBU
S1
ADBU
S0
OSC
O
OSC
I
VCORE
GND
GNDVCCIO
EEC
S
EEC
LK
EED
ATA
TEST
VREG
OU
T
VREG
IN
VCORE
VCORE
GND
GND
RES
ET#
SUSP
END
#
PWR
EN#
VCCIO
GND
GND
VCCIO
GND
GND
VCCIO
VPLL
DP
DM
REF
AGNDVPHY
OU
T
SHD
NFB
GN
D
INO
UT
SHD
NFB
GN
D
IN
S6S5
S4S3
S2S1G
NDIDD+D-
VBU
S
MAX77642 EV Kit Schematic Diagrams (continued)
-
Maxim Integrated │ 17www.maximintegrated.com
Evaluates: MAX77642MAX77642 Evaluation Kit
MAX77642 EV Kit PCB Layout — Top Silkscreen
MAX77642 EV Kit PCB Layout Diagrams
1”
-
Maxim Integrated │ 18www.maximintegrated.com
Evaluates: MAX77642MAX77642 Evaluation Kit
MAX77642 EV Kit PCB Layout — Top View
MAX77642 EV Kit PCB Layout Diagrams (continued)
1”
-
Maxim Integrated │ 19www.maximintegrated.com
Evaluates: MAX77642MAX77642 Evaluation Kit
MAX77642 EV Kit PCB Layout — Internal Layer 2
MAX77642 EV Kit PCB Layout Diagrams (continued)
1”
-
Maxim Integrated │ 20www.maximintegrated.com
Evaluates: MAX77642MAX77642 Evaluation Kit
MAX77642 EV Kit PCB Layout — Internal Layer 3
MAX77642 EV Kit PCB Layout Diagrams (continued)
1”
-
Maxim Integrated │ 21www.maximintegrated.com
Evaluates: MAX77642MAX77642 Evaluation Kit
MAX77642 EV Kit PCB Layout — Bottom View
MAX77642 EV Kit PCB Layout Diagrams (continued)
1”
-
Maxim Integrated │ 22www.maximintegrated.com
Evaluates: MAX77642MAX77642 Evaluation Kit
MAX77642 EV Kit PCB Layout — Bottom Silkscreen
MAX77642 EV Kit PCB Layout Diagrams (continued)
1”
-
Maxim Integrated cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim Integrated product. No circuit patent licenses are implied. Maxim Integrated reserves the right to change the circuitry and specifications without notice at any time.
Maxim Integrated and the Maxim Integrated logo are trademarks of Maxim Integrated Products, Inc. © 2020 Maxim Integrated Products, Inc. │ 23
Evaluates: MAX77642MAX77642 Evaluation Kit
REVISION NUMBER
REVISION DATE DESCRIPTION
PAGES CHANGED
0 11/20 Initial release —
Revision History
For pricing, delivery, and ordering information, please visit Maxim Integrated’s online storefront at https://www.maximintegrated.com/en/storefront/storefront.html.