MAX77650EVKIT_技术文档

Evaluates: MAX77650/MAX77651

MAX77650/MAX77651 Evaluation Kit

General Description

Features

● Easy to Use

The MAX77650/MAX77651 evaluation kit (EV kit) is a

fully assembled and tested printed circuit board (PCB)

that demonstrates the MAX77650/MAX77651. The EV

kit allows for easy evaluation of the various MAX77650/

MAX77651 features, including the SIMO buck-boost regu-

lator, linear regulator, analog multiplexer, smart battery

2

● GUI Drives I C Interface

● On-Board Battery Ammeter

● On-Board Thermistor

● On-Key Options

2

charger, on/oﬀ controller, and I C interface.

● RGB LED Cluster

The MAX77650 and MAX77651 EV kits are identical

aside from the device (U1), silkscreen, and two resis-

tive dividers at the SIMO outputs (see the MAX77650/

MAX77651 EV Kit Diﬀerences section). The MAX77650/

MAX77651 devices themselves have diﬀerent output volt-

age ranges for the SIMO buck-boost regulator. Consult

the device data sheet for more information.

● Assembled and Fully Tested

● Emulates System Loading

● On-Board Electronic Loads

● Electronic Loads have steady-state, transient, and

random modes

● Demonstrates End-to-End Analog Multiplexer

®

Windows -based software provides a user-friendly graph-

Implementation

ical interface as well as a detailed register-based interface

to exercise the features of the MAX77650/MAX77651.

● On-Board ADC

● Evaluates Both Push-Button and Slider-Switch

Ordering Information appears at end of data sheet.

On-Key Options

Figure 1. MAX77650 EV Kit Photo

Windows is a registered trademark and registered service mark of Microsoft Corp.

19-8561; Rev 1; 12/17

Evaluates: MAX77650/MAX77651

MAX77650/MAX77651 Evaluation Kit

2

USB

I C

INTERFACE

CIRCUIT

USER PC

ELECTRONIC LOADS

LDO

2

I C

SYS

MAX77650

MAX77651

SBB0

SBB1

SBB2

LED0/1/2

BATT

+

AMUX

IN1

IN2

IN3

IN4

IN5

IN6

2

I C

BATTERY

AMMETER

A

ADC

Figure 2. Simplified Block Diagram

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MAX77650/MAX77651 Evaluation Kit

LOGIC-LEVEL PIN HEADER

INTERRRUPT LED

MASTER I2C DEVICE PIN HEADER

GUI CONNECTION

RGB LED

CLUSTER

ON/OFF

CONTROLLER

(SW1, SW,2

EN)

LDO TEST

POINTS

SIMO TEST

POINTS

GLOBAL

RESOURCE

TEST POINTS

AMUX TEST

POINTS

SOLDER MASK

RELIEF ALLOWS FOR

HIGH-PERFORMANCE

PROBING OF LXA

AND LXB.

CHARGER

CONNECTIONS

Figure 3. MAX77650 EV Kit Top View

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MAX77650/MAX77651 Evaluation Kit

ADC

DAC

ELECTRONIC

OAD FETs

(Q200–Q203)

L

Figure 4. MAX77650 EV Kit Bottom View

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MAX77650/MAX77651 Evaluation Kit

Figure 5. MAX77650 Top View Main Components

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MAX77650/MAX77651 Evaluation Kit

Table 1. Default Shunt Positions and Jumper Descriptions

REFERENCE

DESIGNATOR

DEFAULT

POSITION

FUNCTION

J100

N/A

Do not connect shunts to J100.

1-2: Connects a VIO to the 1.8V EVKIT logic rail.

3-4: Connects a VIO to the 3.3V EVKIT logic rail.

5-6: Connects a VIO to the LDO output.

J101

1-2

J200

J201

J202

J203

J204

J205

J206

J207

J208

1-2

1-2: Connects the U200 ampliﬁer to the gate of the Q200 load FET.

1-2: Connects VSBB0 to the on-board ADC.

1-2: Connects the U201 ampliﬁer to the gate of the Q201 load FET.

1-2: Connects VSBB1 to the on-board ADC.

1-2: Connects the U202 ampliﬁer to the gate of the Q202 load FET.

1-2: Connects VSBB2 to the on-board ADC.

1-2: Connects the U203 ampliﬁer to the gate of the Q203 load FET.

1-2: Connects VLDO to the on-board ADC.

1-2: Connects the on-board ammeter to GND.

1-2: Connects GPIO to VIO.

2-3: Connects GPIO to GND.

J3

J4

J5

2-3

N/A

2-3

1-2: Connects PWR_HLD to VIO.

2-3: Connects PWR_HLD to GND.

1-2: Connects EN to SW1.

2-3: Connects EN to SW2.

1-2: Connects the THM pin to the divider through the potentiometer (R12).

1-3: Connects the THM pin to the divider through the on-board thermistor.

1-4: Connects the THM pin to the divider through a 10k resistor.

J7

1-3

J8

1-2

1-2: Connects RST to PWR_HLD through a 150Ω resistor.

J10

N/A

1-2: Connects VUSB (voltage from USB input on J6) to VCHGIN.

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MAX77650/MAX77651 Evaluation Kit

VBATT and GND2 terminals of the EVKIT. Turn the

supply on.

Quick Start

Follow this procedure to familiarize yourself with the EV kit.

5) Open the GUI and press the Connect button in the

upper-left corner. Wait for the device to respond, and

in the Synchronize window, press the Read and

close button.

Note: In the following sections, software-related items are

identiﬁed by bolding. Text in bold refers to items directly

from the EV kit software. Text in bold and underlined

refers to items from the Windows operating system.

6) Press the on-key (SW1) for approximately 1 second,

Required Equipment

then release the on-key.

●

MAX77650/MAX77651 EV kit

Windows-based PC

Power supply

Ammeter

7) On the AMUX/ADC tab of the GUI, click the Read

buttons next to VSBB0, VSBB1, VSBB2, and VLDO.

For the MAX77650A, 2.05V, 1.2V, 3.3V, and 1.85V,

respectively, appear (Figure 6). For the MAX77651B,

1.9V, 3.2V, 0V, and 0V, respectively, appear.

DVM

8) Conﬁrm with the ammeter that the quiescent current is

approximately 40µA. Then, in the Global Resources

tab on the GUI, set the Main Bias Low Power Mode bit

to ‘1’ and click the Write button. Now, conﬁrm that the

quiescent current is approximately 6µA.

Micro-USB cable

GUI

Procedure

1) Install the GUI software. Visit the product webpage

at www.maximintegrated.com/max77650evkit and

navigate to Design Resources to download the lat-

est version of the EV kit software. Save the EV kit

software to a temporary folder and decompress the

ZIP ﬁle.

Note that the MAX77651 will have an extra 3µA

current when J203 and J205 are installed. See the

MAX77650/MAX77651 EV Kit Differences section for

more information.

This concludes the Quick Start procedure. Users are now

encouraged to explore the device and its register settings

with the GUI. For guidance on conﬁguring the charger and

the LED’s, see the Charger Quick Start and LED Quick

Start sections. During general device evaluation, set the

ammeter range to greater than or equal to 1A to minimize

the impact of its series resistance.

2) Install EV kit shunts per Table 1.

3) Connect a Micro-B USB cable between the EV kit’s J6

and your Windows-based PC. Note that a USB cable

should always be plugged in during evaluation.

4) Apply a 3.7V supply (set for 100mA current limit)

through an ammeter (set for 10mA range) across the

For more information on the GUI, see the Software section.

Figure 6. Quick Start: Regulator Check with the ADC

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Table 2. Trip Thresholds for 3380K Beta

Thermistor

EV Kit Features

On-Key Options

For applications that require the IC to enable with a user-

interactable switch, the EV kit comes with two common

types: the push-button (momentary) and the slide-switch

(persistent). The active-low enable pin (nEN) has an

external pullup resistor R2. Select which type of switch to

use with jumper J5. Refer to the MAX77650/MAX77651

data sheet for more information on conﬁguring the IC for

momentary or persistent switches.

TRIP VOLTAGE (V)

1.024

TRIP TEMPERATURES (°C)

-10

-5

0.976

0.923

0

0.867

5

0.807

10

15

35

40

45

50

55

60

0.747

Temperature Monitoring

Jumper J7 allows selection between the following tem-

perature monitoring options:

0.511

0.459

0.411

1) Potentiometer R12 (Connect pins 1 and 2)

2) Fixed resistor divider R13 (Connect pins 1 and 4)

3) 3380K negative temperature coeﬃcient thermistor

(NTC) RT1 (Connect pins 1 and 3)

0.367

0.327

0.291

Use the potentiometer setting (pin 1 and 2) to simulate

changing temperature to evaluate the charger’s JEITA

safe charging response. Turn the potentiometer knob

counterclockwise to simulate increasing battery tem-

perature. Turn the knob clockwise to simulate decreasing

temperature. Use the resistor setting (pin 1 and 4) to set

a static temperature (25°C). Use the thermistor setting

(pin 1 and 3) to evaluate the charger’s response to actual

EVK temperature. The NTC beta parameter is 3380K.

Temperature thresholds corresponding to this NTC beta

are listed in Table 2.

Battery Ammeter

The EV kit comes with an on-board ammeter for users to

measure battery current with selectable 6mA or 600mA

range. The battery current sense resistor voltage is ampli-

ﬁed with an op-amp and then converted with an ADC. The

GUI reads the ADC value and displays the corresponding

current measurement. There is a removable jumper J208

(default installed, near the Li+ battery connector J9) that

shorts the negative terminal of the battery to GND. To

use the on-board battery ammeter, remove jumper J208

and select the desirable ammeter range (6mA or 600mA)

in the AMUX/ADC tab of the GUI. Reinstall jumper J208

when not using the on-board battery ammeter. See the

Software section for where to read the current value on

the GUI.

The MAX77650/MAX77651 automatically biases the tem-

perature monitoring circuit whenever CHGIN is valid

and the thermistor is enabled (THM_EN = 1), or the

MUX_SEL[3:0] bitﬁeld is connecting the THM or TBIAS

pins to the AMUX output (MUX_SEL = 0b0111 or 0b1000).

Refer to the Adjustable Thermistor Temperature Monitors

section of the MAX77650/MAX77651 data sheet for more

information.

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Electronic Load

On-Board ADC (MAX11614)

The EV kit comes with an electronic load that allows the

user to easily evaluate the SIMO and LDO. An on-board

DAC and op-amp conﬁguration set the load current

An on-board ADC is available to convert the output volt-

ages of SBB0, SBB1, SBB2, and LDO. The AMUX pin of

the MAX77650/MAX77651, test points AIN1 and AIN7,

and battery current (IBATT) are also measured. The GUI

does the appropriate conversions. See the Software sec-

tion for how to read these values from the GUI.

2

through I C. J201, J203, J205, and J207 connect the

load to the output of the SBB0, SBB1, SBB2, and LDO,

respectively. Emulate SYS loading by removing J207 and

connecting pin 1 of the header to VSYS with a wire. To

exercise the load transient response, remove J200 (for

SBB0), J202 (for SBB1), J204 (for SBB2), or J206 (for

LDO) and connect a signal generator to the gate of the

load MOSFET (pin 2 of the header). Drive the MOSFET

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 is a 1Ω sense resistor that has test point access

(called VIL_SBB0, VIL_SBB1, VIL_SBB2, and VIL_LDO)

that allows for a 1:1 conversion of load current to voltage.

See the Software section for how to set the load current

from the GUI.

Software

The graphical user interface (GUI) software allows for

quick, easy, and thorough evaluation of the MAX77650/

MAX77651.

The GUI is designed to have individual tabs for each func-

tional block of the device (global resources, interrupts/status,

GPIO, charger, SIMO buck-boost, LDO, and LED driver)

and two additional tabs for controlling EV kit hardware

(load control and AMUX/ADC). See Figure 8 for a screen-

shot of the GUI upon ﬁrst opening.

JUMPER B

REGULATOR OUTPUT

MAX5815

DAC

JUMPER A

REGULATOR

OUTPUT

JUMPER A

J200

JUMPER B

J201

SENSE

VIL_SBB0

VIL_SBB1

VIL_SBB2

VIL_LDO

SENSE

1Ω

SENSE

RESISTOR

SBB0

SBB1

SBB2

LDO

J202

J203

J204

J205

J206

J207

Figure 7. Electronic Load Block Diagram

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Figure 8. MAX77650/MAX77651 Evaluation Kit GUI Top-Level Interface

the registers. The Load Control and AMUX/ADC tabs

provide additional functionality with the EV kit.

Installation

Visit the product webpage at www.maximintegrated.

com/max77650evkit 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 decompress

the ZIP ﬁle.

Load Control Tab

The Load Control tab contains controls for setting loads

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 click the Enable button. 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.

Windows Drivers

Upon 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 the necessary drivers.

Graphical User Interface Details (GUI)

The GUI drives I C communication with the EV kit. Every

AMUX/ADC Tab

2

The AMUX/ADC tab allows users to convert important

voltage and current signals to digital readings. To read a

signal, click the Read button and examine the Interpreted

Value column.

control in the GUI (excluding the Load Control and

AMUX/ADC tabs) corresponds directly to a register within

the MAX77650/MAX77651. Refer to the Programmer’s

Guide and IC data sheet for a complete description of

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5) Set the Brightness to 50% or adjust as needed. Click

the Write button.

6) Set the LED Master Enable bit in LED TOP Conﬁgu-

ration to ‘1’. Click the Write button. The LEDs should

now be powered. If they are not, see step 2 of this

procedure.

Charger Quick Start

The Charger tab on the GUI has many settings to toggle;

however, only three registers are needed to charge a bat-

tery. To get started with the charger, follow the procedure

below:

1) Determine the capacity of the battery to identify a safe

charge current. Maxim recommends charging at 70%

of the total capacity (e.g., a 40mAh battery can be

charged at 30mA charge current). Consult the battery

manufacturer’s data sheet carefully to determine safe

charging parameters.

7) Adjust the settings for the other LEDs as desired.

MAX77650/MAX77651 EV Kit Diﬀerences

The MAX77650 and the MAX77651 are the same in

every way except for the output voltage range of two of

the SIMO outputs. The MAX77650 SBB1 output voltage

range is from 0.8V to 1.5875V, whereas the MAX77651

SBB1 output voltage range is from 2.4V to 5.25V. The

MAX77650 SBB2 output voltage range is from 0.8V to

3.95V, whereas the MAX77651 SBB2 output voltage

range is from 2.4V to 5.25V. To expedite evaluation of

these two products, Maxim offers the MAX77650EVKIT#

and the MAX77651EVKIT#.

2) In Charger Conﬁguration E/F, move the Fast-Charge

Current (IFAST_CHG) slider to the desired charge

current setting, and click the Write button.

3) In Charger Conﬁguration G/H/I, move the Fast-

Charge Voltage (VFAST_CHG) slider to the desired

charge voltage setting, and click the Write button.

4) Make sure there is a charge source connected to the

EV kit at 5V. Then, enable the charger by setting the

button labeled Charger to ‘1’ (Enabled) and click the

Write button.

Like the devices themselves, these two EV kits are almost

identical. The PCB layout and schematic are identical for

both EV kits. The silkscreen designator for the part num-

ber on the PCB is different as well as the actual device

(U1). As shown in the MAX77650/MAX77651 EV Kit

Component List, R227, R234, R246, and R247 are differ-

ent for each EV kit. On the MAX77651 EV kit, these resis-

tors scale the SBB1/SBB2 output voltages to be within the

4.096V full-scale range of the MAX11614 ADC. They also

create a 1MΩ impedance path to ground, which creates

additional current. To see the true quiescent current of the

device, remove J203 and J205 from the EV kit.

5) The battery should now be charging at the charge

current set from step 2.

For more information on the capabilities of the battery

charger, refer to the IC data sheet and Programmer’s

Guide.

LED Quick Start

There is an RGB LED cluster on the EV kit, and three cur-

rent sinks (LED0, LED1, and LED2). To get started with

the EV kit LEDs, follow the procedure below:

The GUI automatically detects the device version by

reading the DIDM bit. The transfer function for converting

the SBB1 and SBB2 voltages are adjusted based on the

version detected.

1) Choose an LED Conﬁguration section to change.

LED0 controls Blue, LED1 controls Red, and LED2

controls Green.

2) The main-bias circuits must be on for the current sinks

to enable. This can be accomplished by: pressing the

on-key (SW1), or in the Global Resources tab of the

GUI, setting the Main Bias Enable Controller bit to

a ‘1’ and click the Write button. Pressing the on-key

will allow the internal on/oﬀ controller to enable the

main-bias, while setting the GUI bit to ‘1’ will force the

main-bias circuits on.

3) On the LED Driver tab of the GUI, set the desired

LED Full Scale to 3.2mA.

4) Set the Duty Cycle and Period to a desired blinking

conﬁguration (100% duty cycle for always-on).

Note that the photos and layout files shown are for the

MAX77650, but are directly applicable to the MAX77651.

Ordering Information

PART

IC

TYPE

EV Kit

MAX77650EVKIT#

MAX77651EVKIT#

MAX77650AEWV+

MAX77651AEWV+

#Denotes RoHS compliant.

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MAX77650/MAX77651 Evaluation Kit

MAX77650/MAX77651 EV Kit Component List

MAX77650EVKIT MAX77651EVKIT

QTY

REF_DES

DNI/DNP

MFG PART #

MANUFACTURER

VALUE

DESCRIPTION

QTY

TEST POINT; PIN DIA=0.1IN;

TOTAL LENGTH=0.3IN; BOARD

HOLE=0.04IN; RED; PHOSPHOR

BRONZE WIRE SILVER PLATE

FINISH;

VL, AIN1, AIN7, VIL_LDO,

VIL_SBB0-VIL_SBB2

7

5000

KEYSTONE

TEST POINT; PIN DIA=0.1IN;

TOTAL LENGTH=0.3IN; BOARD

HOLE=0.04IN; WHITE;

PHOSPHOR BRONZE WIRE

SILVER;

NEN, SCL, SDA, AMUX, GPIO,

NIRQ, NRST, QSCL, QSDA,

PWRHLD

10

12

10

12

5002

5010

KEYSTONE

LDO, THM, SBB0-SBB2, VSYS,

BATTN, CHGIN, INLDO, TBIAS,

VBATT, IN_SBB

TESTPOINT WITH 1.80MM HOLE

DIA, RED, MULTIPURPOSE;

CAPACITOR; SMT (0603);

CERAMIC CHIP; 22UF; 10V;

TOL=20%; MODEL=CL SERIES;

TG=-55 DEGC TO +85 DEGC;

TC=X5R; FORMFACTOR

GRM188R61

A226ME15D

C1, C11, C15

3

MURATA

22UF

CAPACITOR; SMT (0603);

CERAMIC CHIP; 4.7UF; 25V;

TOL=10%; TG=-55 DEGC TO +85

DEGC; TC=X5R

C2

1

GRM188R61 MURATA

E475KE11D

4.7UF

CAPACITOR; SMT (0402);

CERAMIC CHIP; 1UF; 6.3V;

TOL=20%; MODEL=C SERIES;

TG=-55 DEGC TO +85 DEGC;

TC=X5R ; FORMFACTOR

C3, C12, C110-C113, C115,

C118, C120, C158, C239-C242

GRM155R60J

MURATA

14

1UF

105KE19D

CAPACITOR; SMT (0402);

CERAMIC CHIP; 3300PF; 50V;

TOL=10%; TG=-55 DEGC TO +85

DEGC; TC=X5R

GRM155R71

MURATA

C4

1

7

1

7

3300PF

10UF

H332KA01D

CAPACITOR; SMT (0402);

CERAMIC CHIP; 10UF; 6.3V;

TOL=20%; MODEL=; TG=-55

DEGC TO +85 DEGC; TC=X5R;

FORMFACTOR

C5, C6, C8, C9, C13, C17, C20

GRJ155R60J10MURATA

ZRB15XR61A4MURATA

CAPACITOR; SMT (0402);

CERAMIC CHIP; 4.7UF; 10V;

TOL=20%; MODEL=C SERIES;

TG=-55 DEGC TO +85 DEGC;

TC=X5R; FORMFACTOR

CAPACITOR; SMT; 0603;

CERAMIC; 0.47uF; 10V; 10%;

X5R; -55degC to + 125degC, ;

FORMFACTOR

C7, C154

2

4.7UF

C10, C114

GRM188R61 MURATA

A474KA61D

0.47UF

C14, C108, C150, C151, C155-

C157, C159, C202, C207,

C212, C217, C221-C224,

C226, C234-C237, C244,

C268, C272-C277

CAPACITOR; SMT (0402);

CERAMIC CHIP; 0.1UF; 25V;

TOL=10%; MODEL=C SERIES;

TG=-55 DEGC TO +125 DEGC;

TC=X7R; FORMFACTOR

CAPACITOR; SMT (0402); OPEN;

FORMFACTOR

29

10

29

10

GRM155R61E MURATA

0.1UF

OPEN

C16,C18,C19,C21-

C24,C26,C129,C134

Do not

install

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MAX77650/MAX77651 EV Kit Component List (continued)

MAX77650EVKIT MAX77651EVKIT

QTY

REF_DES

DNI/DNP

MFG PART #

MANUFACTURER

VALUE

DESCRIPTION

QTY

CAPACITOR; SMT; 0402;

CERAMIC; 0.1uF; 10V; 10%;

X5R; -55degC to + 125degC; 0 +/-

30PPM/degC; FORMFACTOR ;

C25, C27-C29

4

GRM155R61AMURATA

0.1UF

CAPACITOR; SMT (0402);

CERAMIC CHIP; 0.01UF; 10V;

TOL=10%; MODEL=C0402C

SERIES; TG=-55 DEGC TO +125

DEGC; TC=X7R

C30-C33

4

GRM155R61 MURATA

A103KA01D

0.01UF

CAPACITOR; SMT (0402);

CERAMIC CHIP; 15PF; 50V;

TOL=1%; TG=-55 DEGC TO +125

DEGC; TC=C0G

GRM1555C1

MURATA

C152, C153

2

15PF

H150FA01

CAPACITOR; SMT (0402);

CERAMIC CHIP; 4700PF; 50V;

TOL=10%; TG=-55 DEGC TO +85

DEGC; TC=X5R

C200, C205, C210, C215,

C220, C238, C248-C252

GRM155R71

MURATA

11

4700PF

H472KA01D

CAPACITOR; SMT (0402);

CERAMIC CHIP; 1000PF; 50V;

TOL=10%; MODEL=C0G; TG=-55

DEGC TO +125 DEGC; TC=+;

FORMFACTOR

C201, C206, C211, C216

4

8

4

8

GRM155R71HMURATA

1000PF

C0402C180J5

GAC;

GRM1555C1

CAPACITOR; SMT (0402);

CERAMIC CHIP; 18PF; 50V;

TOL=5%; TG=-55 DEGC TO +125

DEGC; TC=C0G

C203, C204, C208, C209,

C213, C214, C218, C219

KEMET/MURATA/TDK 18PF

H180JA01J;C

1005C0G1H1

80J050

GRM1555C1

H331GA01;

C1005C0G1H

331G050

CAPACITOR; SMT (0402);

CERAMIC CHIP; 330PF; 50V;

TOL=2%; TG=-55 DEGC TO +125

DEGC; TC=C0G

C225

C227

1

MURATA/TDK

MURATA

330PF

180PF

CAPACITOR; SMT (0402);

CERAMIC CHIP; 180PF; 50V;

TOL=2%; TG=-55 DEGC TO +125

DEGC; TC=C0G

GRM1555C1

H181GA01

CAPACITOR; SMT (0402);

CERAMIC CHIP; 1UF; 10V;

TOL=10%; MODEL=; TG=-55

DEGC TO +85 DEGC; TC=X5R;

FORMFACTOR

C228

1

GRM155R61AMURATA

1UF

CAPACITOR; SMT (0402);

CERAMIC CHIP; 1UF; 16V;

TOL=10%; MODEL=C SERIES;

TG=-55 DEGC TO +85 DEGC;

TC=X5R; FORMFACTOR

DIODE; LED; STANDARD;

YELLOW; SMT (0603); PIV=5.0V;

IF=0.02A; -55 DEGC TO +85

DEGC

GRM155R61

MURATA

C269-C271

D100, D101

3

2

3

2

1UF

C105KE01D

LTST-

C190YKT

LITE-ON ELECTRONICS;

INC.

LTST-C190YKT

DIODE; LED; STANDARD; RED;

LTST-C190CKT SMT (0603); PIV=5.0V; IF=0.04A;

-55 DEGC TO +85 DEGC

LTST-

C190CKT

LITE-ON ELECTRONICS;

INC.

D102, D103

DS1

2

1

2

1

19-

337/R6GHBH EVERLIGHT

C-A01/2T

19- DIODE; LED; SMD-B;

337/R6GHBH RED/GREEN/BLUE; SMT; PIV=2V-

C-A01/2T

220

3.3V; IF=0.02A

INDUCTOR; SMT (0603);

FERRITE-BEAD; 220; TOL=+/-

25%; 1.4A; -55 DEGC TO +125

DEGC

BLM18PG22

MURATA

1SN1

FB100

Maxim Integrated

│ 13

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Evaluates: MAX77650/MAX77651

MAX77650/MAX77651 Evaluation Kit

MAX77650/MAX77651 EV Kit Component List (continued)

MAX77650EVKIT MAX77651EVKIT

QTY

REF_DES

DNI/DNP

MFG PART #

MANUFACTURER

VALUE

DESCRIPTION

QTY

TEST POINT; PIN DIA=0.125IN;

TOTAL LENGTH=0.445IN;

BOARD HOLE=0.063IN; BLACK;

PHOSPHOR BRONZE WIRE

SILVER PLATE FINISH;

GND1, GND5-GND7

4

5011

KEYSTONE

EVK KIT PARTS; MAXIM PAD;

WIRE; NATURAL; SOLID; WEICO

WIRE; SOFT DRAWN BUS TYPE-

S; 20AWG

GND2-GND4, GND8

J1, J6

4

2

4

2

9020 BUSS WEICO WIRE

MAXIMPAD

CONNECTOR; FEMALE; SMT;

MICRO USB B-TYPE REVERSE;

RIGHT ANGLE; 5PINS

10103592-

FCI CONNECT

0001LF

10103592-

0001LF

CONNECTOR; MALE; THROUGH

HOLE; BREAKAWAY; STRAIGHT;

10PINS; -65 DEGC TO +125

DEGC

SULLINS ELECTRONICS

CORP.

J2

1

PBC10SAAN

CONNECTOR; THROUGH HOLE;

TSW SERIES; SINGLE ROW;

STRAIGHT; 3PINS

TSW-103-07-

T-S

TSW-103-07-T-

S

J3-J5

J7

3

1

3

1

SAMTEC

CONNECTOR; MALE; THROUGH

PEC04SAAN HOLE; BREAKAWAY; STRAIGHT;

4PINS

SULLINS ELECTRONICS

CORP.

PEC04SAAN

CONNECTOR; THROUGH HOLE;

TSW-102-07-T-TSW SERIES; SINGLE ROW;

TSW-102-07-

T-S

J8, J10, J200-J208

11

SAMTEC

S

STRAIGHT; 2PINS; -55 DEGC TO

+105 DEGC

CONNECTOR; MALE; THROUGH

HOLE; 2.0MM PITCH;

S2B-PH-K-

S(LF)(SN)

S2B-PH-K-

S(LF)(SN)

J9

1

JST MANUFACTURING

DISCONNECTABLE CRIMP STYLE

CONNECTOR; SIDE ENTRY TYPE;

RIGHT ANGLE; 2PINS

CONNECTOR; MALE; THROUGH

PBC06SAAN HOLE; BREAKAWAY; STRAIGHT;

6PINS; -65 DEGC TO +125 DEGC

SULLINS ELECTRONICS

CORP.

J100

1

PBC06SAAN

CONNECTOR; THROUGH HOLE;

TSW-102-26-

T-T

TSW-102-26-T-

TSW SERIES; TRIPLE ROW;

T

J101

L1

1

SAMTEC

TOKO

STRAIGHT; 6PINS

EVKIT PART-INDUCTOR; SMT

(0805); METAL ALLOY CHIP;

1.5UH

DFE201210U-

1R5M=P2

1.5UH; TOL=+/-20%; 1.9A;

2.00MMX1.20MMX1.00MM

EVKIT PART-INDUCTOR; SMT

(0805); METAL COMPOSITE

CIGT201208E SAMSUNG

H2R2MN ELECTRONICS

L3

1

2.2UH

CORE; 2.2UH; TOL=+/-20%;

1.8A;

2.00MMX1.25MMX0.80MM

EVKIT PART-INDUCTOR; SMT

(0806); METAL COMPOSITE

CORE; 2.2UH; TOL=+/-20%;

2.7A;

CIGT201610E SAMSUNG

ELECTRONICS

L4

L5

1

2.2UH

H2R2MN

2.00MMX1.60MMX1.00MM

EVKIT PART-INDUCTOR; SMT

(1008); METAL ALLOY CHIP;

2.2UH; TOL=+/-20%; 1.7A;

2.50MMX2.00MMX0.70MM

DFE252007F-

2R2M=P2

MURATA

Maxim Integrated

│ 14

www.maximintegrated.com

Evaluates: MAX77650/MAX77651

MAX77650/MAX77651 Evaluation Kit

MAX77650/MAX77651 EV Kit Component List (continued)

MAX77650EVKIT MAX77651EVKIT

QTY

REF_DES

DNI/DNP

MFG PART #

MANUFACTURER

VALUE

DESCRIPTION

QTY

TRAN; SINGLE N-CHANNEL 2.5V

SPECIFIED POWERTRENCH

MOSFET; NCH; SC89; PD-

(0.625W); I-(0.6A); V-(20V)

FAIRCHILD

SEMICONDUCTOR

Q100, Q101

2

FDY300NZ

TRAN; HEXFET POWER MOSFET;

NCH; PQFN8; PD-(2.8W); I-

(18A); V-(30V)

IRFHM8337T INTERNATIONAL

RECTIFIER

IRFHM8337TR

PBF

Q200-Q203

Q204

4

1

4

1

RPBF

TRAN; N-CHANNEL

DIODES

INCORPORATED

ENHANCEMENT MODE MOSFET;

NCH; SOT-23; PD-(0.74W); I-

(5.47A); V-(20V)

DMG3420U

FDN360P

2N7002

10K

TRANSISTOR, MOSFET P-

CHANNEL, SUPERSOT-3,

PD=0.5W, ID=-2.0A, VDSS=-

30V,VGSS=+/-20V

FAIRCHILD

SEMICONDUCTOR

Q205

Q206

1

9

1

9

FDN360P

2N7002

TRAN; ; NCH; SOT-23; PD-

(0.33W); IC-(0.5A); VCEO-(60V); -

55 DEGC TO +150 DEGC

CRCW04021

0K0FK;

R1, R2, R10, R13, R15, R281,

R282, R287, R288

VISHAY DALE; YAGEO

RESISTOR; 0402; 10K; 1%;

100PPM; 0.0625W; THICK FILM

RC0402FR- PHICOMP

0710K

RESISTOR; 0603; 0 OHM; 0%;

JUMPER; 0.10W; THICK FILM;

FORMFACTOR

R3, R5-R9, R142, R277, R279

R4, R122

9

2

9

2

0

RESISTOR; 0603; 1M; 1%;

100PPM; 0.10W; THICK FILM;

FORMFACTOR

1M

R11, R17, R135, R136, R139,

R141, R143, R148, R152,

R155, R162-R164, R204,

R212, R225, R238, R251,

R259, R285, R286, R302-R306

RESISTOR; 0402; 0 OHM; 1%;

100PPM; 0.0625W; THICK FILM;

FORMFACTOR

26

0

RESISTOR; THROUGH HOLE-

RADIAL LEAD; 3296 SERIES;

200K OHM; 10%; 100PPM; 0.5W

3296Y-1-

BOURNS

204LF

R12

1

8

2

1

8

2

200K

100K

150

RESISTOR; 0402; 100K; 1%;

100PPM; 0.0625W; THICK FILM;

FORMFACTOR

R14, R115, R157, R159, R161,

R214, R280, R283

CRCW04021

50RFK;

RESISTOR; 0402; 150 OHM; 1%;

100PPM; 0.0625W; THICK FILM

R16, R151

VISHAY DALE

9C04021A15

00FL

RESISTOR, 0402, 4.7K OHM, 1%,

100PPM, 0.0625W, THICK FILM;

FORMFACTOR

R100, R118

R103, R123, R150

R107, R108

R109, R111

R110

2

3

2

1

2

3

2

1

2

4.7K

22

RESISTOR, 0402, 22 OHM, 1%,

100PPM, 0.0625W, THICK FILM;

FORMFACTOR

RESISTOR, 0402, 2.2K OHM, 1%,

100PPM, 0.0625W, THICK FILM;

FORMFACTOR

2.2K

100

470

49.9

RESISTOR; 0402; 100 OHM; 1%;

100PPM; 0.0625W; THICK FILM;

FORMFACTOR

CRCW04024

70RFK

RESISTOR, 0402, 470 OHM, 1%,

100PPM, 0.0625W, THICK FILM

VISHAY DALE

RESISTOR; 0402; 49.9 OHM; 1%;

100PPM; 0.0625W; THICK FILM;

FORMFACTOR

R137, R138

Maxim Integrated

│ 15

www.maximintegrated.com

Evaluates: MAX77650/MAX77651

MAX77650/MAX77651 Evaluation Kit

MAX77650/MAX77651 EV Kit Component List (continued)

MAX77650EVKIT MAX77651EVKIT

QTY

REF_DES

DNI/DNP

MFG PART #

MANUFACTURER

VALUE

DESCRIPTION

QTY

RESISTOR; 0402; 105K OHM;

1%; 100PPM; 0.063W ; THICK

FILM

CRCW04021

05KFK

R156

R158

1

VISHAY DALE

105K

RESISTOR; 0402; 169K OHM;

1%; 100PPM; 0.063W; THICK

FILM

CRCW04021

69KFK

1

VISHAY DALE

169K

CRCW04024

752FK;

9C04021A47

52FLHF3;

CRCW04024

7K5FK

RESISTOR; 0402; 47.5K; 1%;

100PPM; 0.0625W; THICK FILM

R160

VISHAY DALE

47.5K

CRCW04021

00RFK;

VISHAY DALE;

PANASONIC; YAGEO

PHYCOMP

R201, R222, R235, R248,

R289

9C04021A10

00FL;

RESISTOR; 0402; 100 OHM; 1%;

100PPM; 0.063W; THICK FILM

5

4

5

4

100

680

RC0402FR-

07100RL

CRCW04026

80RFK;RC040

2FR-07680RL

VISHAY DALE/YAGEO

PHICOMP

RESISTOR, 0402, 680 OHM, 1%,

100PPM, 0.0625W, THICK FILM

R202, R223, R236, R249

R203, R224, R237, R250

CRCW04022

0K0FK

RESISTOR; 0402; 20K OHM; 1%;

100PPM; 0.063W; THICK FILM

4

8

4

8

VISHAY DALE

20K

4.99K

1K

R205, R206, R226, R228,

R239, R240, R252, R253

CRCW04024

991FK

RESISTOR; 0402; 4.99K; 1%;

100PPM; 0.0625W; THICK FILM

R207, R208, R229, R230,

R242, R243, R254, R255,

R263, R264

RESISTOR; 0402; 1K; 1%;

100PPM; 0.0625W; THICK FILM;

FORMFACTOR

10

5

10

5

R210, R231, R244, R257,

R301

CRCW04021

M00FK

RESISTOR; 0402; 1M; 1%;

100PPM; 0.0625W; THICK FILM

VISHAY DALE

PANASONIC

1M

ERJ-

3RQF1R0V

RESISTOR, 0603, 1 OHM, 1%,

100PPM, 0.10W, THICK FILM

RESISTOR; 0402; OPEN;

FORMFACTOR

R211, R233, R245, R258

R213,R260

4

2

4

2

1

Do not

install

OPEN

RESISTOR; 0402; 0 OHM; 1%;

100PPM; 0.0625W; THICK FILM;

FORMFACTOR

R227(MAX77650)

1

0

RESISTOR; 0402; 510K OHM;

5%; 200PPM; 0.063W; METAL

FILM

CRCW04025

10KJN

R227(MAX77651)

R234(MAX77650)

R234(MAX77651)

0

1

0

1

VISHAY DALE

510K

OPEN

510K

Do not

install

RESISTOR; 0402; OPEN;

FORMFACTOR

RESISTOR; 0402; 510K OHM;

5%; 200PPM; 0.063W; METAL

FILM

CRCW04025

10KJN

RESISTOR; 0402; 0 OHM; 1%;

100PPM; 0.0625W; THICK FILM;

FORMFACTOR

R246(MAX77650)

1

0

RESISTOR; 0402; 510K OHM;

5%; 200PPM; 0.063W; METAL

FILM

CRCW04025

10KJN

R246(MAX77651)

R247(MAX77650)

R247(MAX77651)

0

1

0

1

VISHAY DALE

510K

OPEN

510K

Do not

install

RESISTOR; 0402; OPEN;

FORMFACTOR

RESISTOR; 0402; 510K OHM;

5%; 200PPM; 0.063W; METAL

FILM

CRCW04025

10KJN

CSR0603FKR STACKPOLE

100 ELECTRONICS INC

RESISTOR; 0603; 0.1 OHM; 1%;

300PPM; 0.125W; THICK FILM

R261

1

0.1

Maxim Integrated

│ 16

www.maximintegrated.com

Evaluates: MAX77650/MAX77651

MAX77650/MAX77651 Evaluation Kit

MAX77650/MAX77651 EV Kit Component List (continued)

MAX77650EVKIT MAX77651EVKIT

REF_DES

DNI/DNP

MFG PART #

MANUFACTURER

VISHAY DALE/ROHM

VISHAY DALE

VALUE

DESCRIPTION

QTY

CRCW06031

0R0FK;

MCR03EZPFX

10R0

RESISTOR; 0603; 10 OHM; 1%;

100PPM; 0.10W; THICK FILM

R262

1

10

RESISTOR; 0402; 64.9K OHM;

1%; 100PPM; 0.063W; METAL

FILM

CRCW04026

4K9FK

R265-R268

R269

4

1

4

1

64.9K

1K

CRCW04021

K00FK;

RC0402FR-

071KL

VISHAY DALE; YAGEO

PHICOMP

RESISTOR; 0402; 1K; 1%; 100PPM;

0.0625W; THICK FILM

CRCW04021

00KFK;

RC0402FR-

07100KL

VISHAY DALE; YAGEO

PHICOMP

RESISTOR; 0402; 100K; 1%;

100PPM; 0.0625W; THICK FILM

R284

1

100K

ERJ-

2RKF4703X

RESISTOR, 0402, 470K OHM, 1%,

100PPM, 0.0625W, THICK FILM

R293, R295, R297, R299

R294, R296, R298, R300

RT1

4

1

4

1

PANASONIC

VISHAY DALE

MURATA

470K

649K

10K

RESISTOR; 0402; 649K OHM;

1%; 100PPM; 0.063W; THICK

FILM

CRCW04026

49KFK

THERMISTOR; SMT (0402);

THICK FILM (NICKEL PLATED);

10K; TOL=+/-1%

NCP15XH103

F03RC

SWITCH; SPST; SMT; 15V; 0.02A;

LIGHT TOUCH SWITCH; RCOIL=

OHM; RINSULATION= OHM;

PANASONIC

EVQ-

Q2K03W

SW1

SW2

1

PANASONIC

EVQ-Q2K03W

CL-SB-12B-11

SWITCH; SPDT; SMT; 12V;

0.02A; CL-SB SERIES; SLIDE

SWITCH; RCOIL=0.05 OHM;

RINSULATION=100M OHM;

NIDEC COPAL ELECTRONICS

CORP

NIDEC COPAL

ELECTRONICS CORP

CL-SB-12B-11

EVKIT PART-IC; WLP30;

PACKAGKE CODE: W302H2+1;

CL30

MAX77650A

EWV+

U1(MAX77650)

U1(MAX77651)

U100

1

0

1

3

0

1

3

MAXIM

MAX77650

MAX77651

EVKIT PART-IC; WLP30;

PACKAGKE CODE: W302H2+1;

CL30

MAX77651A

EWV+

IC; CTRL; LOW-POWER LCD

MICROCONTROLLER; TQFN56-EP

8X8

MAXQ2000-

RBX+

MAXQ2000-

RBX+

FUTURE TECHNOLOGY

DEVICES INTL LTD.

IC; INFC; UART INTERFACE IC USB

TO SERIAL; QFN32-EP 5X5

U101

FT232RQ

MAX8512EX

K

IC, VREG, Ultra-Low-Noise, High

PSRR, Adjustable Vout, SC70-5

U102-U104

MAXIM

MAX8512EXK

IC; TRANS; 15KV ESD-

PROTECTED HIGH-DRIVE

CURRENT QUAD-LEVEL

TRANSLATOR WITH SPEED-UP

CIRCUITRY; TQFN12 4X4

MAX3395EET

C

MAX3395EET

C

U107

1

24AA02T-

I/OT

IC; EPROM; 2K I2C SERIAL

EEPROM; SOT23-5

U108

1

4

1

4

MICROCHIP

MAXIM

24AA02T-I/OT

MAX44251A

UA+

MAX44251AU IC; OPAMP; ULTRA-PRECISION;

U200-U203

LOW-NOISE OP AMP; UMAX8

A+

IC; DAC; ULTRA-SMALL; QUAD-

CHANNEL; 12-BIT BUFFERED

OUTPUT DAC WITH INTERNAL

REFERENCE AND I2C INTERFACE;

TSSOP14

MAX5815AA

UD+

MAX5815AAU

D+

U205

1

MAXIM

Maxim Integrated

│ 17

www.maximintegrated.com

Evaluates: MAX77650/MAX77651

MAX77650/MAX77651 Evaluation Kit

MAX77650/MAX77651 EV Kit Component List (continued)

MAX77650EVKIT MAX77651EVKIT

REF_DES

DNI/DNP

MFG PART #

MANUFACTURER

VALUE

DESCRIPTION

QTY

IC; ASW; 0.125A; FREQUENCY-

MAX14689E

WL+

MAX14689E SELECTSBLE; SWITCHED-

U206

U207

U209

U210

1

MAXIM

WL+

CAPACITOR VOLTAGE

CONVERTER; WLP9 1.2X1.2

IC; OPAMP; IC; ULTRA-LOW

MAX4238AU

T+

MAX4238AUT OFFSET/DRIFT; LOW-NOISE;

1

MAXIM

+

PRECISION SOT23 AMPLIFIER;

SOT23-6

IC; ADC; LOW-POWER; 8-

MAX11614E

EE+

MAX11614EE CHANNEL; I2C; 12-BIT ADC IN

E+

ULTRA-SMALL PACKAGE;

QSOP16

IC; VREF; LOW-POWER; FIXED;

ADJUSTABLE REFERENCE WITH

SHUTDOWN; SOT23-5

MAX6037BA

UK41+

MAX6037BAU

K41+

IC; INV; INVERTING CHARGE

PUMP WITH SHUTDOWN;

SOT23-6

MAX1697UE

UT+

MAX1697UEU

T+

U211

Y101

1

MAXIM

CRYSTAL; SMT (3225) 3.2X2.5;

8PF; 16MHZ; +/-10PPM; +/-

15PPM

CX3225SB16

000D0FLJZZ

KYOCERA-KINSEKI

16MHZ

INDUCTOR; SMT (0603);

SHIELDED; 0.47UH; TOL=+/-

0.3nH; 0.8A

MLP1608VR4

7D

L2

DNP

0

1

0

1

TDK

0.47UH

PCB

CL30_MAX77

651

PCB

MAXIM

PCB: MAX77651 EVKIT

Maxim Integrated

│ 18

www.maximintegrated.com

Evaluates: MAX77650/MAX77651

MAX77650/MAX77651 Evaluation Kit

MAX77650/MAX77651 EV Kit Schematic

Figure 9. MAX77650/MAX77651 EV Kit Schematic (1 of 6)

Maxim Integrated

│ 19

www.maximintegrated.com

Evaluates: MAX77650/MAX77651

MAX77650/MAX77651 Evaluation Kit

MAX77650/MAX77651 EV Kit Schematic (continued)

2

1

J 9

2

4

6

7

8

9

1 0

1 1

2

3

2

1

Figure 10. MAX77650/MAX77651 EV Kit Schematic (2 of 6)

Maxim Integrated

│ 20

www.maximintegrated.com

Evaluates: MAX77650/MAX77651

MAX77650/MAX77651 Evaluation Kit

MAX77650/MAX77651 EV Kit Schematic (continued)

Figure 11. MAX77650/MAX77651 EV Kit Schematic (3 of 6)

Maxim Integrated

│ 21

www.maximintegrated.com

Evaluates: MAX77650/MAX77651

MAX77650/MAX77651 Evaluation Kit

MAX77650/MAX77651 EV Kit Schematic (continued)

N C

4

3

2

1 6

1 5

7

4

1 3

S

G

1

3

2

D

8

7

6

5

3

2

1

8

7

6

5

3

2

1

8

7

6

5

8

7

6

5

3

2

1

3

2

1

4

8

4

8

4

8

4

8

4

Figure 12. MAX77650/MAX77651 EV Kit Schematic (4 of 6)

Maxim Integrated

│ 22

www.maximintegrated.com

Evaluates: MAX77650/MAX77651

MAX77650/MAX77651 Evaluation Kit

MAX77650/MAX77651 EV Kit Schematic (continued)

5

6

2

C 2

B 2

3

2

Figure 13. MAX77650/MAX77651 EV Kit Schematic (5 of 6)

Maxim Integrated

│ 23

www.maximintegrated.com

Evaluates: MAX77650/MAX77651

MAX77650/MAX77651 Evaluation Kit

MAX77650/MAX77651 EV Kit Schematic (continued)

2

3

2

3

2

4

2

0 . 1 U F

C 1 4

A

K

2

V L

1 2

1 1

^{G N D}5

E P

1 3

V C C

P

6

5

4

3

2

1

J 1 0 0

0 . 1 U F

C 1 5 7

2

N C

2 9

2 5

2 3

1 3

1 2

E P

1

5 7

5

P 7 . 0 / T X 0 / I N T 1 4

P 7 . 1 / R X 0 / I N T 1 5

R E S E T

2 8

P 4 . 3 / T D O

2 7

P 4 . 2 / T M S

2 6

P 4 . 1 / T D I / I N T 9

2 5

P 4 . 0 / T C K / I N T 8

2 4

G N D

2 3

4 3

D T R N ^{I N}

E P

3 3

1 9

I N

4 4

4 5

R I N

R T S N

D C D N

G N D

2 0

1 7

I N

V L C D

V L C D 1

V L C D 2

V A D J

I N

4 6

1 6

4

I N

4 7

D S R N

A G N D

2 4

4 8

P O 0

P O 2

P O 4

P O 6

S E G 0 / P 0 . 0

V D D I O

2 2

C O M 0

2 1

S E G 2 7 / C O M 1

2 0

S E G 2 6 / C O M 2

1 9

S E G 2 5 / C O M 3

1 8

S E G 2 4

1 7

S E G 2 3 / P 3 . 7 / I N T 7

1 6

S E G 2 2 / P 3 . 6 / I N T 6

1 5

n I R Q 1 4 9

P 0 1 5 0

P 0 2 5 1

0 . 1 U F

C 1 5 0

P O 1

S E G 1 / P 0 . 1

S E G 2 / P 0 . 2

S E G 3 / P 0 . 3

P O 3

M A X 5 Q 2 P 0 3

S E G 4 / P 0 . 4 / I N T 0

P 0 4 5 3

M A X Q 5 P 4 0 5

P 0 6 5 5

P 0 7 5 6

P O 5

P O 7

S E G 5 / P 0 . 5 / I N T 1

S E G 6 / P 0 . 6 / I N T 2

S E G 7 / P 0 . 7 / I N T 3

2

1

6

7

8

9

1 0

1 1

Figure 14. MAX77650/MAX77651 EV Kit Schematic (6 of 6)

Maxim Integrated

│ 24

www.maximintegrated.com

Evaluates: MAX77650/MAX77651

MAX77650/MAX77651 Evaluation Kit

MAX77650 EV Kit PCB Layouts

MAX77650 EV Kit Component Placement Guide―Top

MAX77650 EV Kit PCB Layout―Top Layer

Silkscreen

MAX77650 EV Kit PCB Layout―Internal Layer 2

MAX77650 EV Kit PCB Layout―Internal Layer 3

Maxim Integrated

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Evaluates: MAX77650/MAX77651

MAX77650/MAX77651 Evaluation Kit

MAX77650 EV Kit PCB Layouts (continued)

MAX77650 EV Kit PCB Layout―Bottom Layer

MAX77650 EV Kit Component Placement Guide―Bottom

Silkscreen

Maxim Integrated

│ 26

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Evaluates: MAX77650/MAX77651

MAX77650/MAX77651 Evaluation Kit

Revision History

REVISION REVISION

PAGES

CHANGED

DESCRIPTION

NUMBER

DATE

0

2/17

Initial release

—

Added Simpliﬁed Block Diagram, updated Procedures section, added EV Kit

Features section, updated Installation section, updated Charger Quick Start

section, updated Ordering Information table, updated MAX77650/MAX77651 EV

Kit Component List

1

12/17

2–27

For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642, or visit Maxim Integrated’s website at www.maximintegrated.com.

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.

2017 Maxim Integrated Products, Inc.

│ 27


型号：	MAX77650EVKIT
厂家：	MAXIM INTEGRATED PRODUCTS
描述：	GUI Drives I2C Interface
文件：	总27页 (文件大小：3958K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

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