MAX22531 [MAXIM]
Easy Evaluation of MAX22530/MAX22531;型号: | MAX22531 |
厂家: | MAXIM INTEGRATED PRODUCTS |
描述: | Easy Evaluation of MAX22530/MAX22531 |
文件: | 总20页 (文件大小:1653K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
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MAX2253x Evaluation Kit
Evaluates: MAX22530/MAX22531
General Description
Features
The MAX2253x evaluation kit (EV kit) provides the
hardware and software necessary to evaluate the
MAX22530 and MAX22531, quad channel isolated ADC
with field supply. The graphical user interface (GUI)
running on a PC through a USB port communicates to the
MAX22530 EV kit and MAX22531 EV kit.
•
•
Easy Evaluation of MAX22530/MAX22531
EV kit is USB Powered, No Field-Side Supply
Required
All Input Accessible
Windows 7, Windows 8.1, and Windows 10-
Compatible Software
•
•
•
•
•
Proven PCB Layout
Fully Assembled and Tested
RoHS Compliant
The MAX22530 EV kit comes with the MAX22530AWE+
(16 WSOIC) device installed.
The MAX22531 EV kit comes with the MAX22531AAP+
(20 SSOP) device installed.
MAX2253x EV Kit Files
FILE
DESCRIPTION
®
Windows based graphical user interface (GUI) software
is available for use with the EV kit and can be downloaded
Installs EV kit files onto
computer
MAX2253xEVKitSetupV1.0.0.exe
from
Maxim’s
website
at
www.maximintegrated.com/products/MAX22530-22532
MAX2253x EV Kit Files
(under the Design Resources tab). Windows 7 or newer
Windows operating system is required to use the EV kit
software.
MAX22530 EV Kit Schematics
MAX22530 EV Kit PCB Layouts
MAX22531 EV Kit Schematics
MAX22531 EV Kit PCB Layouts
EV Kit Photo (MAX22530EVKIT#)
EV Kit Photo (MAX22531EVKIT#)
Ordering Information appears at end of data sheet.
319-100690; Rev 0; 2/21
MAX2253x Evaluation Kit
Evaluates: MAX22530/MAX22531
device and displays a message near the System Icon
menu indicating that the hardware is ready to use. Note
on the EV kit, the on-board 3.3V USB LED supply
(green LED) is on, indicating the hardware is powered
up.
Quick Start
Required Equipment
•
•
•
MAX2253x EV kit
Micro-USB cable
Windows 10, Windows 8.1, and Windows 7 with a
spare USB port
5. Once the hardware is ready to use, launch the EV kit
software by opening its icon from either the Desktop or
Start | Programs menu. The EV kit software appears
as shown in the Figure 1.
•
•
Multimeter
DC voltage supply (up to 120V, 0.01A, or higher)
6. If the software is launched with the EV kit connected,
the hardware is detected, and the lower-right status bar
indicates Connected. If the hardware is connected
after the software is launched, from the Device menu,
click Search for Hardware as shown in the Figure 2.
Then select a device in the list or use the default device
already selected.
7. Connect the positive terminal of the DC supply to pin 1
(IN1) of terminal J2 on the EV kit. Connect the negative
terminal of the DC supply to pin 5 (AGND) of terminal
J2 on the EV kit.
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.
Procedure
The EV kit is fully assembled and tested. Follow the steps
to install the EV kit software, make required hardware
connections, and start operation of the kit. The EV kit
software can be run without hardware attached. Note that
after communication is established, the IC must still be
configured correctly for desired operation mode. Make
sure the PC is connected to the internet throughout the
process so that the USB driver can be automatically
installed. See Table 1 and Table 2.
8. Configure the DC supply output to be 100V and enable
the supply output.
9. In the Configuration tab of the EV kit software, under
SAMPLE ADC CHANNELS section, click ADC1 to
observe the attenuated signal level sampled to 1.64V.
Any other voltage output selected at DC supply output
is attenuated 61 times when observed at ADC1.
10.Under the BINARY INPUT COMPARATOR section,
change the COMPARATOR MODE selection of CH1
to Digital Input mode and click the UPDATE
CHANNELS button.
1. Visit www.maximintegrated.com/products/MAX22530-
22532 under the Design Resources tab to download
the latest version of the MAX2253x EV kit software
(MAX2253xEVKitSetupVx.xx.ZIP). Save the EV kit
software to a temporary folder and uncompress the zip
file.
2. Run the MAX2253xEVKitSetupVx.xx.EXE program
inside the temporary folder to install the EV kit software
and USB driver. The program files are copied to the PC
and icons are created in the Windows Start |
Programs | Maxim Integrated menu. During the
software installation, some version of the Windows
may show a warning message indicating that this
software is from an unknown publisher. This is not an
error condition, and it is safe to proceed with the
installation. Administrator privileges are required to
install the USB device driver.
11.Observe and verify that the indicator under COMP OUT
section under CH1 is green and the CO_POS_1
indicator under the INTERRUPT STATUS section is
green.
12.If the MAX22531 EV kit hardware is connected,
observe and verify that the COUT1 LED (D1) on the EV
kit is turned on.
13.In the ADC Scope tab, Graph Length selection
enables plotting of selected number of samples. Click
the Plot Data with Plot ADC1 or Plot FADC1 selection
checked from the right side of the window. The channel
1 ADC data samples showing 1.64V are plotted in the
left-top section of the GUI under ADC1
3. Verify that all jumpers are in default positions (Table 1).
4. Connect the MAX2253x EV kit to the PC with the Micro-
USB cable. Windows automatically recognizes the
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Maxim Integrated | 2
MAX2253x Evaluation Kit
Evaluates: MAX22530/MAX22531
EV Kit Block Diagram
J1
MAX2253x EVKit
12-PIN HEADER
J2
J4
J3
ON-BOARD
3.3V
RESISTOR DIVIDER
V
DDL
VDDL
IN4
IN3
AIN4
AIN3
1:61
JUMPER
SETTING
RESISTOR DIVIDER
1:61
V
DDPL
VDDPL
JUMPER
SETTING
EXT SUPPLY
FTDI
USB TO
GPIO
RESISTOR DIVIDER
1:61
IN2
AIN2
SPI
RESISTOR DIVIDER
1:61
IN1
AIN1
USB
INT
AGND
AGND
SW1
MAX22530/ MAX22531
X1
LOGIC SIDE
FIELD SIDE
Table 1. MAX2253x EV Kit Shunt Positions and Voltage Supply Settings
HEADER
SHUNT POSITION
FUNCTION
Connects the V
on-board 3.3V supply.
(logic side isolated DC-DC supply input) supply to the
DDPL
1-2*
J3
Disconnects the V
VDDPL test point.
from on-board 3.3V. External supply is provided at
DDPL
Not Installed
2-3*
Connects the V
(logic supply input) supply to the on-board 3.3V supply.
DDL
J4
Disconnects the V
from on-board 3.3V. V
is powered from an external
DDL
DDL
1-2
supply provided at VDDL_EXT input of 12-pin header J1 (11) and J1(12).
*Default options
Table 2. MAX2253x EV Kit J2 Terminal Description
Terminal
POSITION
FUNCTION
Isolated ADC Channel 1 input. A 1:61 divider resistor network is present to
attenuate the full-scale signal level from 0–110V to 0–1.8V at AIN1 input of
MAX2253x.
1
Isolated ADC Channel 2 input. A 1:61 divider resistor network is present to
attenuate the full-scale signal level from 0–110V to 0–1.8V at AIN2 input of
MAX2253x.
2
3
J2
Isolated ADC Channel 3 input. A 1:61 divider resistor network is present to
attenuate the full-scale signal level from 0–110V to 0–1.8V at AIN3 input of
MAX2253x.
Isolated ADC Channel 4 input. A 1:61 divider resistor network is present to
attenuate the full-scale signal level from 0–110V to 0–1.8V at AIN4 input of
MAX2253x.
4
5
GND. Field side analog ground.
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Maxim Integrated | 3
MAX2253x Evaluation Kit
Evaluates: MAX22530/MAX22531
Detailed Description of Software
The main window of the EV kit software contains three tabs: Configuration, ADC Scope, and Register Settings. The
Configuration tab provides the controls to directly configure the MAX22530/MAX22531 features such as comparator
modes, upper and lower thresholds, individual channel sampling, device control, fault status reporting, etc., The ADC
Scope tab plots the ADC readings and filtered ADC readings in the time domain graph. The Register Settings tab lists
all the registers in the MAX22530/MAX22531 and provides direct read and write access to all the control bits. The
MAX2253x EV kit software can work with both the MAX22530EVKIT# and MAX22531EVKIT#. The Device menu allows
the user to select the device and to connect or disconnect to the hardware by choosing detected serial numbers.
Configuration Tab
The Configuration tab provides an interface for configuring the MAX22530/MAX22531 from a functional perspective.
This tab is divided into four sections: SAMPLE ADC CHANNELS, BINARY INPUT COMPARATOR, CONTROL, and
INTERRUPT STATUS. The SAMPLE ADC CHANNELS section contains individual channel single read operation on
ADC1 to ADC4 and FADC1 to FADC4 (filtered ADC) respectively. It also has ENABLE BURST READ selection which
performs single burst read operation. With the ENABLE BURST READ checked, the BURST registers READ ADC
provides sample data of ADC1 through ADC4; and the Status Register is indicated in the INTERRUPT STATUS section.
With ENABLE BURST READ checked, the BURST READ FADC provides sample data of FADC1 through FADC4
registers and the Status Register is indicated in the INTERRUPT STATUS section. The REFERENCE value set to 1.8V
in the EV kit GUI is the integrated field-side reference output internally generated by the MAX22530 and MAX22531. The
REFERENCE field input can be changed from 1.75V to 1.85V based on the actual voltage measured at the REF output
across C20 or C31 output capacitor to improve the ADC reading accuracy.
The BINARY INPUT COMPARATOR section controls the settings to configure the internal digital comparators CO_1 to
CO_4. The Comparator Mode section enables either Digital Input mode or Digital Status mode. The FILTER option
with ON or OFF allows enabling or disabling the internal moving average filter. The EV kit hardware has field-side input
divider network of 1kΩ and 60kΩ. With a 1:61 resistive divider network at EV kit, the input connected at J2 terminal can
be up to 110V full scale. This divider ratio of 1:61 is the common default setting in the EV kit GUI software. This setting
can be changed to the resistive network modified at the inputs of each ADC. The hysteresis points, UPPER THRESHOLD
and LOWER THRESHOLD values of the comparator are selected with respect to the full-scale input which is associated
with the DIVIDER RATIO (1: N) setting. The resolution of this threshold value is ~27mV while the + and - button changes
the threshold value by 0.5V. Once the UPDATE CHANNELS button is clicked, the threshold values change to reflect the
register value to the nearest digit. Manual typing of the threshold value is also allowed. However, when the UPDATE
CHANNELS is clicked, the value reflects the register content to the nearest digit as well.
The CONTROL section allows the user to configure and control the ADC. The RESET control provides options to disable
field power (DISPWR), perform a hard (full) reset (RSET), or perform a soft (register) reset (SRES). The CLEAR
checkboxes provide a clear POR option and reset individual channel moving average filters of ADC channel 1 to 4 through
ADC1 Filter to ADC4 Filter checkbox controls. The ENABLE INTERRUPT checkboxes and COUT INTERRUPT
ENABLE checkboxes enable or disable a hardware interrupt on the
output pin. The ENABLE checkboxes enable or
disable SPI CRC functionality option and the common threshold (CMN TH) option. Enabling the common threshold option
forces all the internal digital comparators CO_1 to CO_4 to take upper and lower threshold values of CO-1 (CO_HI_TH_1
and CO_LO_TH_1). Reading the register values of CO_2 to CO_4 will not show these values. Also, CH2 to CH4 threshold
will be in disabled and cannot be changed.
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Maxim Integrated | 4
MAX2253x Evaluation Kit
Evaluates: MAX22530/MAX22531
Figure 1. Configuration Tab
Figure 2. MAX2253x EV Kit Software Startup Window
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Maxim Integrated | 5
MAX2253x Evaluation Kit
Evaluates: MAX22530/MAX22531
ADC Scope Tab
The ADC Scope tab displays the ADC readings and filtered ADC readings in the time domain as a number of samples.
Individual scope section displays for each channel (ADC1 to ADC4) are provided. In each ADC_ graph, ADC_ and/or
FADC_ data plots can be viewed. By clicking the Plot Data button, the software reads and plots the number of samples
of ADC register and/or the filtered ADC register. It also displays the results based on the selection from the Graph Length.
Figure 3. ADC Scope Tab
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Maxim Integrated | 6
MAX2253x Evaluation Kit
Evaluates: MAX22530/MAX22531
Register Settings Tab
The Register Settings tab shows all the MAX22530/MAX22531 registers information including the register name,
address, value, read or write accessibility, and the register description. The value of the cell can be changed by the user
if the register is writable. Clicking the Write Modified button after changing the value writes the new contents to the
register. Clicking the Read All button reads all registers and refreshes the window with register settings.
Figure 4. Register Settings Tab
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Maxim Integrated | 7
MAX2253x Evaluation Kit
Evaluates: MAX22530/MAX22531
Detailed Description of Hardware
The MAX22530/MAX22531 EV kit is an easy-to-use solution to evaluate the MAX22530/MAX22531, quad channel
isolated ADC for industrial applications. The EV kit hardware comes with a MAX22530/MAX22531 device with an input
resistive divider network to support a full-scale voltage up to 110V at the J2 terminal. The logic and field side are isolated
on the EV kit PCB as well with the 90pF PCB stitching cap introduced across the two sides for radiated emissions
performance with the CISPR32 standards.
The EV kit comes with up to ±7kV/42Ω surge protection at field channel inputs to field/analog ground.
Device Powering Options
With the default jumper settings, the EV kit is powered entirely from the USB supplied power. The 5V USB power is used
to generate the on-board regulated 3.3V (3V3_USB) that powers the EV kit. The VDDL and VDDPL power supply inputs
are connected to the on-board supply. Alternatively, external low-voltage supplies can be connected to the VDDL and
VDDPL test points with jumper J3 and J4 settings changed as per Table 1.
SPI Interface
The EV kit software communicates over USB to the SPI interface and supports the full 10MHz clock rate for the
MAX22530/MAX22531. If the users wish to interface to their own microcontroller or FPGA, change the contact position
of the switch SW1 to OFF position and hardwire the SPI signals and the external supply to the 12-pin header terminal
provided by J1. During this condition, the external VDDL supply (VDDL_EXT) is provided by the user. A separate supply
is provided to the VDDPL jumper J3. Table 3 describes the EV kit 12 pin header J1 that is used to connect and operate
with an external device. Table 4 shows the position of switch SW1 that enables either internal or external communication
for interfacing with the MAX22530/MAX22531.
Table 3. J1 Connector for Interface with External Communication Device
TERMINAL J1 INPUT
ASSOCIATED SIGNAL
1
2
CS
INT
3
MOSI/ DIN/ SDI
DGND
4
5
MISO/ DOUT/ SDO
DGND
6
7
SCLK
8
DGND
9
DGND
10
11
12
DGND
VDDL_EXT
VDDL_EXT
Table 4. Switch Position
SW1 SLIDE POSITION
SELECTION
On-board FTDI, USB to GPIO signal selected for SPI communication. The Micro-USB
cable is connected to the connector slot X1.
ON
External Communication device selected for SPI communication. The Micro-USB cable
is not connected to the connector slot X1. External VDDL and VDDPL supplies applied
to the MAX22530/MAX22531.
OFF
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Maxim Integrated | 8
MAX2253x Evaluation Kit
Evaluates: MAX22530/MAX22531
ADC Input (AIN) Resistor Divider
An external high voltage needs to be divided down to meet the ADC full-scale range (0 to 1.8V (VREF)) and to compare
this input to user-configured comparator lower and upper thresholds. The absolute maximum voltage for the ADC input
is -0.3V to +2V and the user must ensure that any external voltage applied to the EV kit does not cause this range to be
exceeded at any of the AIN pin of the MAX22530/MAX22531 device. Exceeding this range could permanently damage
the IC. The input voltage is connected to terminal block J1 and is attenuated by the network of four 15kΩ thick film resistors
in series with a 1kΩ resistor providing up to 1.8V at the ADC input when 110VDC is applied to J1. The user should be
aware of the hazards associated with higher voltages, which could cause any of the associated test points or circuit traces
to have a hazardous potential.
Ordering Information
PART
TYPE
EV Kit
EV Kit
MAX22530EVKIT#
MAX22531EVKIT# *
#Denotes RoHS-compliance.
*Denotes Future Product–Contact factory for availability.
MAX22530 EV Kit Bill of Materials
PART
QTY
DESCRIPTION
AIN1-AIN4, CSB, DIN,
DOUT, INTB, SCLK,
TP1, TP2, TP5, TP6
TEST POINT; SMT; PIN LENGTH=0.135IN; PIN WIDTH=0.07IN; PIN HEIGHT=0.06IN;
SILVER; PHOSPHOR BRONZE WITH SILVER PLATE CONTACT
13
C1
C2
C3
C4
C5
1
1
1
1
1
CAP; SMT (0805); 10UF; 10%; 16V; X7R; CERAMIC
CAP; SMT (0603); 0.47UF; 10%; 50V; X7R; CERAMIC
CAP; SMT (0603); 1000PF; 5%; 100V; C0G; CERAMIC
CAP; SMT (0603); 0.01UF; 10%; 200V; X7R; CERAMIC
CAP; SMT (0805); 22UF; 10%; 16V; X5R; CERAMIC
C6, C7, C10, C11, C15-
C19, C21, C22, C99
12
CAP; SMT (0603); 0.1UF; 10%; 100V; X7R; CERAMIC
C8, C9, C14
C12, C13
3
2
2
2
6
1
2
CAP; SMT (0805); 4.7UF; 10%; 25V; X7R; CERAMIC
CAP; SMT (0603); 18PF; 5%; 50V; C0G; CERAMIC
CAP; SMT (0603); 1UF; 10%; 25V; X7R; CERAMIC
CAP; SMT (0402); 1UF; 10%; 25V; X6S; CERAMIC
CAP; SMT (0603); 0.01UF; 5%; 25V; C0G; CERAMIC
CAP; SMT; 1000PF; 20%; 250V; E; CERAMIC
C20, C23
C24, C25
C26, C27, C29-C32
C28
C33, C34
CAP; SMT (0402); 0.01UF; 5%; 25V; X7R; CERAMIC
DIODE; LED; STANDARD; YELLOW-GREEN; SMT (0603); PIV=1.9V; IF=0.005A; -55 DEGC
TO +85 DEGC
DS1, LED_USB
2
EVKIT PART - MAXIM PAD; TEST POINT; PIN DIA=0.094IN; TOTAL LENGTH=0.350IN;
BOARD HOLE=0.040IN; NONE; PHOSPHOR BRONZE WIRE SILVER PLATE FINISH;
EGND
J1
1
1
1
1
CONNECTOR; THROUGH HOLE; DOUBLE ROW; RIGHT ANGLE; 12PINS
CONNECTOR; FEMALE; THROUGH HOLE; 10.16MM PITCH; SIDE WIRE ENTRY STACKING
WITH INTERLOCK; TERMINAL BLOCK; STRAIGHT; 5PINS
J2
J3
CONNECTOR; MALE; THROUGH HOLE; BREAKAWAY; STRAIGHT; 2PINS
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Maxim Integrated | 9
MAX2253x Evaluation Kit
Evaluates: MAX22530/MAX22531
CONNECTOR; MALE; THROUGH HOLE; BREAKAWAY; STRAIGHT THROUGH; 3PINS; -65
DEGC TO +125 DEGC
J4
1
L1, L3, L4
L2
3
1
4
1
2
2
1
1
1
2
INDUCTOR; SMT (0805); FERRITE-BEAD; 330; TOL=+/-25%; 1.5A
INDUCTOR; SMT (1812); FERRITE CORE; 3.3UH; TOL=+/-10%; 0.9A
MACHINE FABRICATED; ROUND-THRU HOLE SPACER; NO THREAD; M3.5; 5/8IN; NYLON
RES; SMT (0603); 100; 1%; +/-100PPM/DEGC; 0.1000W
MH1-MH4
R1
R2, R3
R4, R6
R5
RES; SMT (0603); 10; 1%; +/-100PPM/DEGC; 0.1000W
RES; SMT (0603); 10K; 1%; +/-100PPM/DEGC; 0.1000W
RES; SMT (0603); 2.2K; 1%; +/-100PPM/DEGC; 0.1000W
RES; SMT (0603); 15K; 1%; +/-100PPM/DEGC; 0.1000W
R7
R8
RES; SMT (0603); 12K; 1%; +/-100PPM/DEGC; 0.1000W
R9, R13
RES; SMT (0603); 1K; 1%; +/-100PPM/DEGC; 0.1000W
R10-R12, R14, R16,
R18, R20, R22, R38-R45
16
RES; SMT (2512); 15K; 1%; +/-100PPM/DEGC; 1W
R17, R19, R21, R23
4
13
1
RES; SMT (0805); 1K; 1%; +/-100PPM/DEGC; 0.5000W
RES; SMT (0603); 0; 5%; JUMPER; 0.1000W
R24-R36
R37
RES; SMT (0603); 3.3K; 1%; +/-100PPM/DEGC; 0.1000W
RESISTOR;THROUGH-HOLE;10M;1%;100PPM;1/8W;METAL FILM
R46
1
SWITCH; SPST; SMT; STRAIGHT; 20V; 0.1A; SURFACE MOUNT DIP SWITCH-AUTO
PLACEABLE; RINSULATION=1000M OHM
TEST POINT; PIN DIA=0.125IN; TOTAL LENGTH=0.445IN; BOARD HOLE=0.063IN; BLACK;
PHOSPHOR BRONZE WIRE SILVER PLATE FINISH;
EVKIT PART -IC; MAX22530; PACKAGE LAND PATTERN DRAWING: 90-0107; WSOIC16;
300MIL; WSOIC16 300MIL
SW1
1
4
1
TP3, TP4, TP7, TP8
U1
U2
U3
U4
1
1
1
IC; CONV; PWM STEP-DOWN DC-DC CONVERTER; TDFN10-EP 3X3
IC; EPROM; 4K MICROWIRE SERIAL EEPROM; SOT23-6
IC; MMRY; DUAL HIGH SPEED USB TO MULTIPURPOSE UART/FIFO; QFN64-EP
VDDL, VDDL_EXT,
VDDPL
TEST POINT; PIN DIA=0.125IN; TOTAL LENGTH=0.445IN; BOARD HOLE=0.063IN; RED;
PHOSPHOR BRONZE WIRE SIL;
3
CONNECTOR; MALE; THROUGH HOLE; MICRO-USB CONNECTOR MEETING
REQUIREMENTS OF USB 2.0 STANDARD; RIGHT ANGLE; 5PINS
X1
Y1
1
1
CRYSTAL; SMT ; 18PF; 12MHZ; +/-20PPM; +/-30PPM
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Maxim Integrated | 10
MAX2253x Evaluation Kit
Evaluates: MAX22530/MAX22531
MAX22530 EV Kit Schematics
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Maxim Integrated | 11
MAX2253x Evaluation Kit
Evaluates: MAX22530/MAX22531
MAX22530 EV Kit Schematics (continued)
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MAX2253x Evaluation Kit
Evaluates: MAX22530/MAX22531
MAX22530 EV Kit PCB Layouts
MAX22530 EV Kit Component Placement Guide—Top
MAX22530 EV Kit PCB Layout—Layer 2
Silkscreen
MAX22530 EV Kit PCB Layout—Top
MAX22530 EV Kit PCB Layout—Layer 3
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Maxim Integrated | 13
MAX2253x Evaluation Kit
Evaluates: MAX22530/MAX22531
MAX22530 EV Kit PCB Layouts (continued)
MAX22530 EV Kit PCB Layout—Bottom
MAX22530 EV Kit Component Placement Guide—Bottom
Silkscreen
MAX22531 EV Kit Bill of Materials
PART
QTY
DESCRIPTION
AIN1-AIN4, COUT1,
COUT2, CSB, DIN,
DOUT, INTB, SCLK,
TP1, TP2, TP5, TP6
TEST POINT; SMT; PIN LENGTH=0.135IN; PIN WIDTH=0.07IN; PIN HEIGHT=0.06IN;
SILVER; PHOSPHOR BRONZE WITH SILVER PLATE CONTACT
15
C1
C2
C3
C4
C5
1
1
1
1
1
CAP; SMT (0805); 10UF; 10%; 16V; X7R; CERAMIC
CAP; SMT (0603); 0.47UF; 10%; 50V; X7R; CERAMIC
CAP; SMT (0603); 1000PF; 5%; 100V; C0G; CERAMIC
CAP; SMT (0603); 0.01UF; 10%; 200V; X7R; CERAMIC
CAP; SMT (0805); 22UF; 10%; 16V; X5R; CERAMIC
C6, C7, C10, C11,
C15-C19, C21, C22,
C99
12
CAP; SMT (0603); 0.1UF; 10%; 100V; X7R; CERAMIC
C8, C9, C14
C12, C13
3
2
4
4
1
4
2
CAP; SMT (0805); 4.7UF; 10%; 25V; X7R; CERAMIC
CAP; SMT (0603); 18PF; 5%; 50V; C0G; CERAMIC
CAP; SMT (0402); 1UF; 10%; 25V; X6S; CERAMIC
CAP; SMT (0603); 0.01UF; 5%; 25V; C0G; CERAMIC
CAP; SMT; 1000PF; 20%; 250V; E; CERAMIC
C20, C23-C25
C26, C27, C29, C30
C28
C31-C34
CAP; SMT (0402); 0.01UF; 5%; 25V; X7R; CERAMIC
DIODE; LED; GREEN; SMT; VF=1.8V; IF=0.002A
D1, D2
DIODE; LED; STANDARD; YELLOW-GREEN; SMT (0603); PIV=1.9V; IF=0.005A; -55 DEGC
TO +85 DEGC
EVKIT PART - MAXIM PAD; TEST POINT; PIN DIA=0.094IN; TOTAL LENGTH=0.350IN;
BOARD HOLE=0.040IN; NONE; PHOSPHOR BRONZE WIRE SILVER PLATE FINISH;
DS1, LED_USB
EGND
2
1
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Maxim Integrated | 14
MAX2253x Evaluation Kit
Evaluates: MAX22530/MAX22531
J1
J2
J3
J4
1
1
1
1
CONNECTOR; THROUGH HOLE; DOUBLE ROW; RIGHT ANGLE; 12PINS
CONNECTOR; FEMALE; THROUGH HOLE; 10.16MM PITCH; SIDE WIRE ENTRY STACKING
WITH INTERLOCK; TERMINAL BLOCK; STRAIGHT; 5PINS
CONNECTOR; MALE; THROUGH HOLE; BREAKAWAY; STRAIGHT; 2PINS
CONNECTOR; MALE; THROUGH HOLE; BREAKAWAY; STRAIGHT THROUGH; 3PINS; -65
DEGC TO +125 DEGC
L1, L3, L4
L2
3
1
4
1
2
2
1
1
1
2
INDUCTOR; SMT (0805); FERRITE-BEAD; 330; TOL=+/-25%; 1.5A
INDUCTOR; SMT (1812); FERRITE CORE; 3.3UH; TOL=+/-10%; 0.9A
MACHINE FABRICATED; ROUND-THRU HOLE SPACER; NO THREAD; M3.5; 5/8IN; NYLON
RES; SMT (0603); 100; 1%; +/-100PPM/DEGC; 0.1000W
MH1-MH4
R1
R2, R3
R4, R6
R5
RES; SMT (0603); 10; 1%; +/-100PPM/DEGC; 0.1000W
RES; SMT (0603); 10K; 1%; +/-100PPM/DEGC; 0.1000W
RES; SMT (0603); 2.2K; 1%; +/-100PPM/DEGC; 0.1000W
RES; SMT (0603); 15K; 1%; +/-100PPM/DEGC; 0.1000W
R7
R8
RES; SMT (0603); 12K; 1%; +/-100PPM/DEGC; 0.1000W
R9, R13
RES; SMT (0603); 1K; 1%; +/-100PPM/DEGC; 0.1000W
R10-R12, R14, R16,
R18, R20, R22, R38-
R45
16
RES; SMT (2512); 15K; 1%; +/-100PPM/DEGC; 1W
R15, R47
2
4
RES; SMT (0603); 499; 1%; +/-100PPM/DEGC; 0.1000W
RES; SMT (0805); 1K; 1%; +/-100PPM/DEGC; 0.5000W
RES; SMT (0603); 0; 5%; JUMPER; 0.1000W
R17, R19, R21, R23
R24-R36, R48-R51
R37
17
1
RES; SMT (0603); 3.3K; 1%; +/-100PPM/DEGC; 0.1000W
RESISTOR;THROUGH-HOLE;10M;1%;100PPM;1/8W;METAL FILM
R46
1
SWITCH; SPST; SMT; STRAIGHT; 20V; 0.1A; SURFACE MOUNT DIP SWITCH-AUTO
PLACEABLE; RINSULATION=1000M OHM
TEST POINT; PIN DIA=0.125IN; TOTAL LENGTH=0.445IN; BOARD HOLE=0.063IN; BLACK;
PHOSPHOR BRONZE WIRE SILVER PLATE FINISH;
EVKIT PART - IC; MAX22531; PACKAGE OUTLINE DRAWING: 21-0056; LAND PATTERN
DRAWING: 90-0094; SSOP20
SW1
1
4
1
TP3, TP4, TP7, TP8
U1
U2
U3
U4
1
1
1
IC; CONV; PWM STEP-DOWN DC-DC CONVERTER; TDFN10-EP 3X3
IC; EPROM; 4K MICROWIRE SERIAL EEPROM; SOT23-6
IC; MMRY; DUAL HIGH SPEED USB TO MULTIPURPOSE UART/FIFO; QFN64-EP
VDDL, VDDL_EXT,
VDDPL
TEST POINT; PIN DIA=0.125IN; TOTAL LENGTH=0.445IN; BOARD HOLE=0.063IN; RED;
PHOSPHOR BRONZE WIRE SIL;
3
CONNECTOR; MALE; THROUGH HOLE; MICRO-USB CONNECTOR MEETING
REQUIREMENTS OF USB 2.0 STANDARD; RIGHT ANGLE; 5PINS
X1
Y1
1
1
CRYSTAL; SMT ; 18PF; 12MHZ; +/-20PPM; +/-30PPM
www.maximintegrated.com
Maxim Integrated | 15
MAX2253x Evaluation Kit
Evaluates: MAX22530/MAX22531
MAX22531 EV Kit Schematics
www.maximintegrated.com
Maxim Integrated | 16
MAX2253x Evaluation Kit
Evaluates: MAX22530/MAX22531
MAX22531 EV Kit Schematics (continued)
www.maximintegrated.com
Maxim Integrated | 17
MAX2253x Evaluation Kit
Evaluates: MAX22530/MAX22531
MAX22531 EV Kit PCB Layouts
MAX22531 EV Kit Component Placement Guide—Top
MAX22531 EV Kit PCB Layout—Layer 2
Silkscreen
MAX22531 EV Kit PCB Layout—Top
MAX22531 EV Kit PCB Layout—Layer 3
www.maximintegrated.com
Maxim Integrated | 18
MAX2253x Evaluation Kit
Evaluates: MAX22530/MAX22531
MAX22531 EV Kit PCB Layouts (continued)
MAX22531 EV Kit PCB Layout—Bottom
MAX22531 EV Kit Component Placement Guide—Bottom
Silkscreen
www.maximintegrated.com
Maxim Integrated | 19
MAX2253x Evaluation Kit
Evaluates: MAX22530/MAX22531
Revision History
REVISION
NUMBER
REVISION
DATE
PAGES
CHANGED
DESCRIPTION
0
2/21
Initial release
—
Windows is a registered trademark and registered service mark of Microsoft Corporation.
For pricing, delivery, and ordering information, please visit Maxim Integrated’s online storefront at https://www.maximintegrated.com/en/storefront/storefront.html.
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. The parametric values (min and max limits)
shown in the Electrical Characteristics table are guaranteed. Other parametric values quoted in this data sheet are provided for guidance.
Maxim Integrated and the Maxim Integrated logo are trademarks of Maxim Integrated Products, Inc.
© 2021 Maxim Integrated Products, Inc.
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