MAX22701EVKIT [MAXIM]
2 EV Kits to Support 3 Output Options: GNDB, Miller Clamp, or Adjustable UVLO;
| 型号: | MAX22701EVKIT |
| 厂家: | 
MAXIM INTEGRATED PRODUCTS |
| 描述: | 2 EV Kits to Support 3 Output Options: GNDB, Miller Clamp, or Adjustable UVLO |
| 文件: | 总18页 (文件大小:2375K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
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MAX22700‒MAX22702
Evaluation Kits
Evaluates: MAX22700D‒MAX22702D
MAX22700E‒MAX22702E
General Description
Features
The MAX22700–MAX22702 evaluation kits (EV kits)
provide a proven design to evaluate the MAX22700–
MAX22702 family of single-channel isolated gate drivers
with ultra-high common-mode transient immunity (CMTI)
of 300kV/μs (typ). Two identical channels (devices) are
included on the EV kit in order to demonstrate the very
tight part-to-part propagation delay matching of 2ns (max)
over the -40°C to +125°C operating temperature range.
● 2 EV Kits to Support 3 Output Options: GNDB, Miller
Clamp, or Adjustable UVLO
● 2 Input Configurations: Single-Ended with Enable, or
Differential
● 2 Identical Channels Allowing Propagation Delay
Matching Measurements
● 2 Calibration Channels for Precision Propagation
Delay Measurements
Two types of evaluation kits, MAX22701EVKIT# and
MAX22702EVKIT#, are available to support variants with
different B-side options, gate driver common pin GNDB
(MAX22700), Miller Clamp pin (MAX22701), and adjust-
able undervoltage-lockout pin (MAX22702). In addition,
both EV kits support variants with different A-side options,
differential inputs (D versions), or a single-ended input
with an enable pin (E versions). Both evaluation boards
come with the narrow-body 8-pin SOIC package type.
See Table 1 for EV kit options.
● SMA Connectors and Terminal Blocks for Easy
Connection to External Equipment
● Wide Power Supply Voltage Range from 3V to 5.5V
(A Side) and 13V to 36V (B Side)
● Guaranteed Up to 3kV
Isolation for 60s
RMS
● -40°C to +125°C Temperature Range
● Proven PCB Layout
Ordering Information appears at end of data sheet.
The MAX22701EVKIT# is fully assembled and tested,
and comes populated with the MAX22701EASA+ (see
Figure 1). This board also supports the MAX22701DASA+,
but requires the user to replace U1 and U2.
The MAX22702EVKIT# is fully assembled and tested,
and comes populated with the MAX22702EASA+ (see
Figure 2). This board also supports the MAX22700DASA+,
MAX22700EASA+, and MAX22702DASA+ if the user
replaces U1, U2, and necessary external components
on the B side. See Table 3 and Evaluate MAX22700 on
MAX22702EVKIT# section for details.
The EV kits should be powered from multiple independent
isolated power supplies as required by the different power
domains. The A side of the MAX22700–MAX22702 family
has a nominal supply-voltage range from 3V to 5.5V. The
B side has a nominal supply-voltage range of 13V to 36V
or 6V to 36V depending upon the target device. For evalu-
ating the electrical parameters of the devices without any
isolation between the two sides and two devices, a common
ground can be shared among different power domains.
Note: When ordering an EV kit, if the desired device is not
the MAX22701EASA+ or the MAX22702EASA+, request
samples of the desired MAX22700–MAX22702 IC that can be
soldered to the PCB.
319-100462; Rev 1; 3/20
MAX22700‒MAX22702
Evaluation Kits
Evaluates: MAX22700D‒MAX22702D
MAX22700E‒MAX22702E
Figure 1. MAX22701EVKIT#
Figure 2. MAX22702EVKIT#
Table 1. EV Kit Options
EVKIT PART #
MAX22701EVKIT#
MAX22702EVKIT#
DEFAULT DEVICE
PACKAGE TYPE
POPULATED IC
MAX22701EASA+
MAX22702EASA+
8-SOIC Narrow-Body
8-SOIC Narrow-Body
Single-Ended Inputs with Miller Clamp on side B
Single-Ended Inputs with Adjustable UVLO on side B
Maxim Integrated
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MAX22700‒MAX22702
Evaluation Kits
Evaluates: MAX22700D‒MAX22702D
MAX22700E‒MAX22702E
6) Enable all three power supplies.
Quick Start
Note: It is also possible to power the EV kits from a
single power supply to test electrical parameters, but
this invalidates the digital isolation between the A side
and the B side of the IC, and the isolation between U1
and U2.
Required Equipment
● MAX22701EVKIT# with MAX22701EASA+ as U1 and
U2, or MAX22702EVKIT# with MAX22702EASA+ as
U1 and U2
● One DC power supply with an output range up to 5.5V
● Two DC power supplies with an output range up to 36V
● Signal/function generator
7) Connect the signal/function generator output to
SMA connector INP_IN1. Set the function generator
output to be a square wave with the amplitude of
V
, 10kHz frequency, and 50% duty cycle. Enable
DDA
● Oscilloscope
the function generator output.
8) Observe the B-side output voltage on the OUT1 test
Procedure
point to be a square wave with the amplitude of V
,
DDB
The MAX22701 and MAX22702 EV kits are fully assem-
bled and ready for evaluation. Follow the steps below to
verify board functionality:
10kHz frequency, and 50% duty cycle.
9) To measure the propagation delay matching between
U1 and U2, connect the function generator output to
both SMA connectors INP_IN1 and INP_IN2. Config-
ure the output to be a square wave with the amplitude
1) Verify jumper settings. See Table 2 for all shunt posi-
tions.
• J1 and J2 are closed.
• For the MAX22702 EV kit, J3 and J4 are closed.
of V
, 10kHz frequency, and 50% duty cycle. Ob-
DDA
serve the propagation delay skew between the OUT1
2) Connect the JA1 pin 3 (U1 EN) and pin 4 (GNDA1) to-
gether, and the JA2 pin 3 (U2 EN) and pin 4 (GNDA2)
together using shunts or jump wires to always enable
the U1 and U2 devices.
test point and OUT2 test point.
Note: When connecting one scope probe between
the OUT1 and VSSB1 test points and another scope
probe between the OUT2 and VSSB2 test points,
VSSB1 and VSSB2 are shorted together through the
oscilloscope, which invalidates the isolation between
U1 and U2. Make sure that VSSB1 and VSSB2 are
safe to be shorted together when probing OUT1 and
OUT2 using the same oscilloscope.
3) Connect a DC power supply between the EV kit
VDDA1 and GNDA1 test points. Set the output
between 3V and 5.5V.
4) Connect one DC power supply between the EV kit
VDDB1 and VSSB1 test points, and another DC pow-
er supply between VDDB2 and VSSB2 test points.
5) MAX22701 EV kit: set both DC power supply outputs
between 13V and 36V.
MAX22702 EV kit: set both DC power supply outputs
between 6V and 36V.
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MAX22700‒MAX22702
Evaluation Kits
Evaluates: MAX22700D‒MAX22702D
MAX22700E‒MAX22702E
Table 2. MAX22701 and MAX22702 EV Kits Connectors and Shunt Positions
SHUNT
POSITION
CONNECTOR
DESCRIPTION
SIDE A
Connect U1 GNDA and U2 GNDA
Disconnect U1 GNDA and U2 GNDA
Connect U1 V and U2 V
1-2*
Open
1-2*
Open
1
J1
J2
DDA DDA
Disconnect U1 V
DDA
and U2 V
DDA
Test point or input header for U1 V
DDA
2
Test point or input header for U1 INP (D versions) or IN (E versions); same as INP_IN1 SMA connector
Test point or input header for U1 INN (D versions) or EN (E versions); same as INN_ENB1 SMA connector
Test point or input header for U1 GNDA
JA1
JA2
3
4
5
Test point or input header for U2 V
DDA
6
Test point or input header for U2 INP (D versions) or IN (E versions); same as INP_IN2 SMA connector
Test point or input header for U2 INN (D versions) or EN (E versions); same as INN_ENB2 SMA connector
Test point or input header for U2 GNDA
7
8
INP_IN1
INN_ENB1
INP_IN2
n/a
n/a
n/a
n/a
SMA connector for U1 INP input (D versions) or IN input (E versions)
SMA connector for U1 INN input (D versions) or EN input (E versions)
SMA connector for U2 INP input (D versions) or IN input (E versions)
SMA connector for U2 INN input (D versions) or EN input (E versions)
SIDE B
INN_ENB2
(MAX22701 EV kit) Test point or connector for U1 output
1
(MAX22702 EV kit) Test point or connector for U1 adjustable UVLO resistor-divider reference ground
(MAX22702), or U1 GNDB (MAX22700); Connect to the external power transistor source pin
T1
(MAX22701 EV kit) Test point or connector for U1 V
SSB
2
3
(MAX22702 EV kit) Test point or connector for U1 output
(MAX22702 EV kit only) Test point or connector for U1 V
(MAX22701 EV kit) Test point or connector for U2 output
SSB
1
2
(MAX22702 EV kit) Test point or connector for U2 adjustable UVLO resistor-divider reference ground
(MAX22702), or U2 GNDB (MAX22700); Connect to the external power transistor source pin
T2
(MAX22701 EV kit) Test point or connector for U2 V
SSB
(MAX22702 EV kit) Test point or connector for U2 output
(MAX22702 EV kit only) Test point or connector for U2 V
3
SSB
(MAX22702 EV kit only) Connect U1 V
SSB
U1 adjustable UVLO resistor-divider reference ground (MAX22702)
and U1 GNDB (MAX22700) or
1-2*
J3
J4
(MAX22702 EV kit only) Disconnect U1 V and U1 GNDB (MAX22700) or
SSB
U1 adjustable UVLO resistor-divider reference ground (MAX22702)
Open
1-2*
(MAX22702 EV kit only) Connect U2 V
and U2 GNDB (MAX22700) or
SSB
U2 adjustable UVLO resistor-divider reference ground (MAX22702)
(MAX22702 EV kit only) Disconnect U2 V
and U2 GNDB (MAX22700) or
SSB
U2 adjustable UVLO resistor-divider reference ground (MAX22702)
Open
*Default configuration
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MAX22700‒MAX22702
Evaluation Kits
Evaluates: MAX22700D‒MAX22702D
MAX22700E‒MAX22702E
Table 3. MAX22701 and MAX22702 EV Kits Board Configurations
CONFIGURATIONS
COMPONENTS
MAX22700D
MAX22700E
MAX22701D
MAX22701E
MAX22702D
MAX22702E
SIDE A
INP_IN1, INP_IN2
INN_ENB1, INN_ENB2
JA1 PIN 2, JA2 PIN 2
JA1 PIN 3, JA2 PIN 3
SIDE B, MAX22701EVKIT#
T1 PIN1, T2 PIN 1
SIDE B, MAX22702EVKIT#
T1 PIN 1, T2 PIN 1
T1 PIN 2, T2 PIN 2
R5, R7
INP
INN
INP
INN
IN
EN
IN
INP
INN
INP
INN
IN
EN
IN
INP
INN
INP
INN
IN
EN
IN
EN
EN
EN
–
–
Output
Output
–
–
GNDB
Output
DNI
GNDB
Output
DNI
–
–
–
–
–
–
–
–
–
–
ADJ Reference
Output
ADJ Reference
Output
20kΩ
20kΩ
D3, D4
DNI
DNI
6.2V Zener Diode 6.2V Zener Diode
R6, R8
0Ω
0Ω
110kΩ
110kΩ
DC POWER SUPPLY
3V TO 5.5V
DC POWER SUPPLY
6V TO 36V
+
-
-
+
SIGNAL GENERATOR
OSCILLOSCOPE
OUT1
OUT2
DC POWER SUPPLY
6V TO 36V
-
+
Figure 3. MAX22701 and MAX22702 EV Kits Typical Test Setup
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MAX22700‒MAX22702
Evaluation Kits
Evaluates: MAX22700D‒MAX22702D
MAX22700E‒MAX22702E
I/O Connections
Detailed Description of Hardware
Two SMA connectors (INP_IN and INN_ENB) are pro-
vided on the A side of each device to allow easy connec-
tions to signal generator(s). Depending on the U1 and U2
devices installed on the board, they can be connected to
differential signals with opposite phases (MAX2270_D
versions) or a single-ended signal with an enable signal
(MAX2270_E versions).
The MAX22700–MAX22702 EV kits allow the user to
evaluate the features of the MAX22700–MAX22702 ultra-
high CMTI isolated gate drivers.
Power Supplies and Isolation
Two identical channels (U1 and U2) are included on the
EV kits and are fully isolated with each other. The A side
and the B side of each device are also isolated to demon-
strate the isolation feature of the devices.
To accommodate different B-side configurations of the
MAX22700–MAX22702 IC family, different terminal blocks
(T1 and T2) are provided on the B side of the MAX22701
and MAX22702 EV kits. On the MAX22701 EV kit, two-pin
connectors are provided, where pin 1 is the output and pin 2
Power to the MAX22701 or MAX22702 device is derived
from two external sources. The A-side supply voltage
range is between 3V and 5.5V, and the B-side supply
voltage range is between 13V and 36V if the devices
under evaluation are the MAX22700 and MAX22701, and
between 6V and 36V if the device under evaluation is the
MAX22702. Connect the A-side supply between VDDA
and GNDA test points and connect the B-side supply
between VDDB and VSSB test points. Each supply can
be set independently and can be present over the entire
voltage range regardless of the level or presence of the
other supply.
is U1 or U2 V . On the MAX22702 EV kit, three-pin con-
SSB
nectors are provided. Pin 1 is the external resistor-divider
reference ground for adjustable UVLO if the MAX22702
IC devices are installed as U1 and U2. If the MAX22700
IC devices are installed as U1 and U2, pin 1 is connected
to GNDB. Regardless of the U1 and U2 devices, pin 2 is
the output and pin 3 is U1 or U2 V . Refer to Table 2 for
SSB
connector positions and Table 3 for board configurations
based on different U1 and U2 devices.
The A side of both U1 and U2 devices can be powered
from the same source when both J1 and J2 jumpers
are installed. This is useful when both device inputs are
driven from the same signal generator. In this case, the
isolation between the U1 A side and the U2 A side no
longer exists. The isolation between the U1 B side and
the U2 B side and between the A side and the B side of
each device is still intact. Refer to Figure 3 for a typical
test setup diagram.
Shunt Positions
Install the jumpers on J1 and J2 to connect U1 V
and
DDA
U2 V
, and U1 GNDA and U2 GNDA when a single
DDA
power supply is used to drive the A side of both devices.
On the MAX22702 EV kit, jumpers J3 and J4 are provided
to connect V
supply and the adjustable UVLO resistor-
SSB
divider reference ground (MAX22702), or V
supply and
SSB
GNDB (MAX22700). This is useful when evaluating the elec-
trical performance of the devices without power transistors.
The J3 and J4 jumpers should be removed when driving the
external power transistors using the EV kit. The adjustable
UVLO resistor-divider reference ground or GNDB should
be connected to the external power transistor source pin.
Refer to the MAX22700–MAX22702 IC data sheet for more
details. See Table 2 for all shunt positions.
Decoupling Capacitors
The V
power supply of both U1 and U2 are decou-
DDA
pled with 1000pF, 0.1μF and 1μF low-ESR and low-ESL
ceramic capacitors, which are placed close to the V
DDA
pin of the device and are in parallel with each other.
The V
power supply of both U1 and U2 are decou-
DDB
pled with 1000pF, 0.1μF and 1μF low-ESR and low-ESL
ceramic capacitors with 50V voltage rating in parallel with
each other. The 1000pF and 1μF capacitors are placed
Calibration Channels
Two reference channels (REFA1‒REFB1, REFA2‒
REFB2) are implemented on the EV kits to help calibrate
the test setup for timing measurements such as propa-
gation delay. Measure the propagation delay (t
using the reference channel first to determine the delay
close to the V
pin and the 0.1μF capacitor is placed
SSB
close to the V
pin. An additional 10μF bulk capaci-
DDB
)
PD_REF
tor is also included between the V
and V
pins to
DDB
SSB
reduce the load current transient on the B-side supply.
Refer to the MAX22701 EV Kit PCB Layout Diagrams and
the MAX22702 EV Kit PCB Layout Diagrams for details.
introduced by the test setup. Measure the propagation
delay (t
) again using either U1 or U2 channel. The
PD_ISO
calibrated propagation delay is t
- t
.
PD_ISO PD_REF
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MAX22700‒MAX22702
Evaluation Kits
Evaluates: MAX22700D‒MAX22702D
MAX22700E‒MAX22702E
The U1 and U2 channels are made identical to demon-
strate the tight part-to-part propagation delay skew of the
MAX22700–MAX22702 family. Apply the input signals
to both U1 and U2 inputs and measure the propaga-
tion delay skew on the outputs (OUT1 and OUT2). Care
should be taken that the connections between the signal
generator and the inputs, and the connections between
the outputs and the oscilloscope are made identical to
minimize the skew introduced by the test setup. Refer to
the EV kit typical test setup diagram as shown in Figure 3.
Evaluate MAX22700 on MAX22702EVKIT#
The MAX22702 EV kit is designed to evaluate all
MAX22700 and MAX22702 devices. The MAX22700
provides a common ground pin (GNDB) on the driver
side while the MAX22702 features an adjustable B-side
UVLO (ADJ) to accommodate UVLO requirements of dif-
ferent types of power transistors. Due to this difference,
the external components need to be configured differ-
ently when using the MAX22702 EV kit to evaluate the
MAX22700.
By default, the MAX22702EVKIT# comes populated with
the MAX22702EASA+. Resistor-dividers formed by R5
and R6 for U1, and R7 and R8 for U2 are implemented
on the board to set the B-side UVLO to 13V. The zener
diodes D3 for U1 and D4 for U2 prevent the voltage dif-
Gate Driver Output Resistors
External series resistors between the MAX22700–
MAX22702 IC output and the gate of the power transis-
tor are required in gate driver applications. These resis-
tors control the turn-on and turn-off times of the power
transistor.
ference between V
supply and ADJ being more than
DDB
6V, which violates the Absolute Maximum Ratings for the
ADJ pin.
Both MAX22701 and MAX22702 EV kits come populated
with a 10Ω output resistor (R2 for U1, R4 for U2). In paral-
lel to this 10Ω resistor, a resistor footprint (R1 for U1, R3
for U2) in series with a diode footprint (D1 for U1, D2 for
U2) are provided on the EV kits to allow different rise and
fall times of the output. These resistors can be modified
by the user to configure turn-on and turn-off times of the
output based on the application.
To evaluate the MAX22700 devices on the MAX22702 EV
kit, U1 and U2 need to be replaced with the MAX22700.
R5, R7, D3 and D4 need to be removed. R6 and R8 need
to be replaced with 0Ω resistors in order to connect the
GNDB pin of the MAX22700 directly to the terminal blocks
(T1 and T2). When installing U1 and U2, make sure pin 1
of the device is mounted onto pin 1 of U1 and U2 on the
PCB. Pin 1 is located at the upper left corner of U1 and
U2, denoted by a white dot on the silkscreen. Refer to
Table 3 for different board configurations.
The EV kits also come populated with a 220pF load
capacitor (C7 for U1, C14 for U2) on each output. The
user can replace this capacitor to emulate the required
gate capacitance of the external power transistor.
The MAX22701 EV kit is designed to evaluate the
MAX22701 devices with Miller Clamp feature.
A 0Ω resistor (R5 and R6 on the MAX22701EVKIT#, R9
and R10 on the MAX22702EVKIT#) is included between
the output resistor and the load capacitor, which can be
replaced by a ferrite bead to help minimize ringing on the
output signal.
Refer to the MAX22701 EV Kit Schematic and the
MAX22702 EV Kit Schematic for details.
Ordering Information
PART
TYPE
MAX22701EVKIT# EV Kit with installed MAX22701EASA+
MAX22702EVKIT# EV Kit with installed MAX22702EASA+
#Denotes RoHS compliant.
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MAX22700‒MAX22702
Evaluation Kits
Evaluates: MAX22700D‒MAX22702D
MAX22700E‒MAX22702E
MAX22701 EV Kit Bill of Materials
ITEM
REF_DES
QTY
MFG PART #
MANUFACTURER
VALUE
DESCRIPTION
CAPACITOR; SMT (0603); CERAMIC CHIP; 1000PF; 100V;
TOL = 5%; MODEL = HT SERIES;
1
C1, C4, C8, C11
4
C0603H102J1GAC
KEMET
1000PF
TG = -55°C TO +200°C; TC = C0G
CC0603KRX7R0BB104;
GRM188R72A104KA35;
GCJ188R72A104KA01
YAGEO;
MURATA;MURATA
CAPACITOR; SMT (0603); CERAMIC CHIP; 0.1µF; 100V;
TOL = 10%; TG = -55°C TO +125°C; TC = X7R
2
3
C2, C6, C9, C13
C3, C5, C10, C12
4
4
0.1µF
1µF
C2012X7S2A105K125;
GRJ21BC72A105KE11;
CGA4J3X7S2A105K125AB;
GRM21BC72A105KE01
TDK;MURATA;
TDK;MURATA
CAPACITOR; SMT (0805); CERAMIC CHIP; 1µF; 100V;
TOL = 10%; TG = -55°C TO +125°C; TC = X7S
CAPACITOR; SMT (0603); CERAMIC CHIP; 220PF; 100V;
TOL = 10%; MODEL = C0G; TG = -55°C TO +125°C; TC = +
4
5
C7, C14
2
2
C0603C221K1GAC
KEMET
KEMET
220PF
10µF
C15, C16
T591D106M050ATE090
CAP; SMT (7343-31); 10µF; 20%; 50V; TANTALUM CHIP
TEST POINT; PIN DIA = 0.125IN; TOTAL LENGTH = 0.445IN;
BOARD HOLE = 0.063IN; BLACK;
PHOSPHOR BRONZE WIRE SILVER PLATE FINISH;
GNDA1, GNDA2,
VSSB1, VSSB2
6
4
5011
KEYSTONE
N/A
INN_ENB1, INN_ENB2,
INP_IN1, INP_IN2,
REFA1, REFA2,
JOHNSON
COMPONENTS
CONNECTOR; END LAUNCH JACK RECEPTACLE;
BOARDMOUNT; STRAIGHT THROUGH; 2PINS;
7
8
142-0701-851
142-0701-851
REFB1, REFB2
CONNECTOR; MALE; THROUGH HOLE;
SQUARE POST HEADER; STRAIGHT; 2PINS
8
9
J1, J2
2
2
TSW-202-07-G-S
" 5-146128-2"
SAMTEC
TSW-202-07-G-S
" 5-146128-2"
TE
CONNECTOR; HEADER ASSEMBLY;
BREAKAWAY MALE; SMT; STRAIGHT; 4PINS
JA1, JA2
CONNECTIVITY
OUT1, OUT2,
VSSB1_TP,
VSSB2_TP
TEST POINT; SMT; PIN DIA = 0.110IN;
TOTAL LENGTH = 0.17IN
10
4
1508-0-57-15-00-00-03-0
MILL-MAX
N/A
11
12
R2, R4
R5, R6
2
2
CRCW120610R0FKEBHP
CRCW06030000Z0
VISHAY
10
0
RES; SMT (1206); 10; 1%; ±100PPM/°K; 0.75W ;
VISHAY DALE
RESISTOR; 0603; 0Ω; 0%; JUMPER; 0.1W; THICK FILM
TEST POINT; ECONOMY SHUNT ASSEMBLY; STR;
TOTAL LENGTH = 2IN; BLACK;
CONTACT BASE MATERIAL= BERYLLIUM COPPER
13
14
SU1, SU2
T1, T2
2
2
531230-4
1984617
TE CONNECTIVITY
PHOENIX CONTACT
531230-4
1984617
CONNECTOR; FEMALE; SMT;
PCB TERMINAL BLOCK; RIGHT ANGLE; 2PINS
EVKIT PART -IC; MAX22701; ULTRA-HIGH CMTI
SILICON-CARBIDE (SIC) GATE DRIVER;
PACKAGE OUTLINE: 21-0041; PACKAGE CODE: S8M+5;
LAND PATTERN NO.: 90-0096; NSOIC8
15
U1, U2
2
MAX22701
MAXIM
MAX22701
TEST POINT; PIN DIA = 0.125IN; TOTAL LENGTH = 0.445IN;
BOARD HOLE = 0.063IN; RED;
PHOSPHOR BRONZE WIRE SIL;
VDDA1, VDDA2,
VDDB1, VDDB2
16
4
5010
KEYSTONE
N/A
17
18
19
20
21
PCB
1
4
4
2
2
MAX22701
1902B
MAXIM
GENERIC PART
GENERIC PART
VISHAY
PCB
N/A
PCB:MAX22701
MTH1-MTH4
MTH1-MTH4
D1, D2
DNI
DNI
DNI
DNI
STANDOFF; FEMALE-THREADED; HEX; 4-40IN; 3/8IN; NYLON
MACHINE SCREW; SLOTTED; PAN; 4-40IN; 3/8IN; NYLON
DIODE; SCH; SMT (DO-219AB); PIV = 40V; IF = 1.1A
RES; SMT (1206); 2.49; 1%; ±100PPM/°K; 0.75W
P440.375
N/A
SL04
SL04
2.49
R1, R3
CRCW12062R49FKEAHP
VISHAY
Maxim Integrated
│ 8
www.maximintegrated.com
MAX22700‒MAX22702
Evaluation Kits
Evaluates: MAX22700D‒MAX22702D
MAX22700E‒MAX22702E
MAX22701 EV Kit Schematic
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Maxim Integrated
│ 9
www.maximintegrated.com
MAX22700‒MAX22702
Evaluation Kits
Evaluates: MAX22700D‒MAX22702D
MAX22700E‒MAX22702E
MAX22701 EV Kit PCB Layout Diagrams
1.0ꢀꢀ
1.0ꢀꢀ
MAX22701 EV Kit PCB Layout—Top Silkscreen
MAX22701 EV Kit PCB Layout—Top View
Maxim Integrated
│ 10
www.maximintegrated.com
MAX22700‒MAX22702
Evaluation Kits
Evaluates: MAX22700D‒MAX22702D
MAX22700E‒MAX22702E
MAX22701 EV Kit PCB Layout Diagrams (continued)
1.0ꢀꢀ
1.0ꢀꢀ
MAX22701 EV Kit PCB Layout—L2 GND
MAX22701 EV Kit PCB Layout—L3 PWR
Maxim Integrated
│ 11
www.maximintegrated.com
MAX22700‒MAX22702
Evaluation Kits
Evaluates: MAX22700D‒MAX22702D
MAX22700E‒MAX22702E
MAX22701 EV Kit PCB Layout Diagrams (continued)
1.0ꢀꢀ
1.0ꢀꢀ
MAX22701 EV Kit—Bottom View
MAX22701 EV Kit PCB Layout—Bottom Silkscreen
Maxim Integrated
│ 12
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MAX22700‒MAX22702
Evaluation Kits
Evaluates: MAX22700D‒MAX22702D
MAX22700E‒MAX22702E
MAX22702 EV Kit Bill of Materials
ITEM
REF_DES
QTY
MFG PART #
MANUFACTURER
VALUE
DESCRIPTION
CAPACITOR; SMT (0603); CERAMIC CHIP; 1000PF; 100V;
TOL = 5%; MODEL = HT SERIES;
1
C1, C4, C8, C11
4
C0603H102J1GAC
KEMET
1000PF
TG = -55°C TO +200°C; TC = C0G
CC0603KRX7R0BB104;
GRM188R72A104KA35;
GCJ188R72A104KA01;
HMK107B7104KA;
YAGEO;MURATA;
MURATA;TAIYO YUDEN;
AVX
CAPACITOR; SMT (0603); CERAMIC CHIP; 0.1µF; 100V;
TOL = 10%; TG = -55°C TO +125 DEGC; TC = X7R
2
3
C2, C6, C9, C13
C3, C5, C10, C12
4
4
0.1µF
1µF
06031C104KAT2A
C2012X7S2A105K125AB;
GRJ21BC72A105KE11;
CGA4J3X7S2A105K125AB;
GRM21BC72A105KE01
CAPACITOR; SMT (0805); CERAMIC CHIP; 1µF; 100V;
TOL = 10%; TG = -55°C TO +125°C; TC = X7S
TDK;MURATA;TDK
CAPACITOR; SMT (0603); CERAMIC CHIP; 220PF; 100V;
TOL = 10%; MODEL = C0G; TG = -55°C TO +125°C; TC = +
4
5
6
C7, C14
C15, C16
D3, D4
2
2
2
C0603C221K1GAC
T591D106M050ATE090
MMSZ5234B-7-F
KEMET
KEMET
220PF
10µF
6.2V
CAP; SMT (7343-31); 10µF; 20%; 50V; TANTALUM CHIP
DIODE; ZNR; SMT (SOD-123); VZ = 6.2V; IZ = 0.02A
DIODES
INCORPORATED
TEST POINT; PIN DIA = 0.125IN; TOTAL LENGTH = 0.445IN;
BOARD HOLE = 0.063IN; BLACK;
PHOSPHOR BRONZE WIRE SILVER PLATE FINISH;
GNDA1, GNDA2,
VSSB1, VSSB2
7
8
4
8
5011
KEYSTONE
N/A
INN_ENB1, INN_ENB2,
INP_IN1, INP_IN2,
REFA1, REFA2,
JOHNSON
COMPONENTS
CONNECTOR; END LAUNCH JACK RECEPTACLE;
BOARDMOUNT; STRAIGHT THROUGH; 2PINS;
142-0701-851
142-0701-851
REFB1, REFB2
CONNECTOR; MALE; THROUGH HOLE;
SQUARE POST HEADER; STRAIGHT; 2PINS
9
J1, J2
J3, J4
2
2
2
4
TSW-202-07-G-S
PEC02SAAN
5-146128-2
9032
SAMTEC
SULLINS
TSW-202-07-G-S
PEC02SAAN
5-146128-2
9032
CONNECTOR; MALE; THROUGH HOLE;
BREAKAWAY; STRAIGHT; 2PINS
10
11
12
CONNECTOR; HEADER ASSEMBLY;
BREAKAWAY MALE; SMT; STRAIGHT; 4PINS
JA1, JA2
MTH1-MTH4
TE CONNECTIVITY
KEYSTONE
MACHINE FABRICATED; ROUND-THRU HOLE SPACER;
NO THREAD; M3.5; 5/8IN; NYLON
OUT1, OUT2,
VSSB1_TP,
VSSB2_TP
TEST POINT; SMT; PIN DIA = 0.110IN;
TOTAL LENGTH=0.17IN
13
14
4
2
1508-0-57-15-00-00-03-0
CRCW120610R0FKEBHP
MILL-MAX
VISHAY
N/A
10
R2, R4
RES; SMT (1206); 10; 1%; ±100PPM/°K; 0.75W ;
MCR03EZPFX2002;
ERJ-3EKF2002;
CR0603-FX-2002ELF;
CRCW060320K0FK
ROHM;PANASONIC;
BOURNS;
VISHAY DALE
RESISTOR; 0603; 20KΩ; 1%; 100PPM;
0.10W; THICK FILM
15
R5, R7
2
20K
16
17
R6, R8
2
2
CRCW0603110KFK
CRCW06030000Z0
VISHAY DALE
VISHAY DALE
110K
0
RESISTOR, 0603, 110K, 1%, 100PPM, 0.10W, THICK FILM
R9, R10
RESISTOR; 0603; 0Ω; 0%; JUMPER; 0.1W; THICK FILM
TEST POINT; ECONOMY SHUNT ASSEMBLY; STR;
TOTAL LENGTH = 2IN; BLACK; CONTACT BASE
MATERIAL= BERYLLIUM COPPER
TE
18
SU1, SU2
2
531230-4
531230-4
CONNECTIVITY
KYCON;KYCON;
SULLINS
ELECTRONICS CORP.
TEST POINT; JUMPER; STR; TOTAL LENGTH = 0.24IN;
BLACK; INSULATION = PBT;
PHOSPHOR BRONZE CONTACT=GOLD PLATED
S1100-B;SX1100-B;
STC02SYAN
19
20
SU3, SU4
T1, T2
2
2
SX1100-B
1984620
CONNECTOR; FEMALE; SMT;
COMBICON COMPACT; RIGHT ANGLE; 3PINS
1984620
PHOENIX CONTACT
MAXIM
EVKIT PART -IC; MAX22702; ULTRA-HIGH CMTI
SILICON-CARBIDE (SIC) AND GALLIUM NITRIDE (GAN)
GATE DRIVER; PACKAGE OUTLINE: 21-0041;
PACKAGE CODE: S8M+5;
21
U1, U2
2
MAX22702
MAX22702
LAND PATTERN NO.: 90-0096; NSOIC8
TEST POINT; PIN DIA = 0.125IN;
TOTAL LENGTH=0.445IN;
BOARD HOLE = 0.063IN; RED;
PHOSPHOR BRONZE WIRE SIL;
VDDA1, VDDA2,
VDDB1, VDDB2
22
4
5010
KEYSTONE
N/A
23
24
PCB
1
2
MAX22702
MAXIM
VISHAY
VISHAY
N/A
PCB
SL04
2.49
PCB:MAX22702
D1, D2
DNI
DNI
SL04
DIODE; SCH; SMT (DO-219AB); PIV = 40V; IF = 1.1A
RES; SMT (1206); 2.49; 1%; ±100PPM/°K; 0.75W
PACKAGE OUTLINE 0603 NON-POLAR CAPACITOR
PACKAGE OUTLINE 0805 NON-POLAR CAPACITOR
25
R1, R3
2
CRCW12062R49FKEAHP
26
C19, C20
C17, C18
DNP
DNP
0
N/A
N/A
OPEN
OPEN
27
0
N/A
TOTAL
69
Maxim Integrated
│ 13
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MAX22700‒MAX22702
Evaluation Kits
Evaluates: MAX22700D‒MAX22702D
MAX22700E‒MAX22702E
MAX22702 EV Kit Schematic
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ꢋ
ꢇ
ꢙ
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ꢋ
ꢇ
Maxim Integrated
│ 14
www.maximintegrated.com
MAX22700‒MAX22702
Evaluation Kits
Evaluates: MAX22700D‒MAX22702D
MAX22700E‒MAX22702E
MAX22702 EV Kit PCB Layout Diagrams
1.0ꢀꢀ
1.0ꢀꢀ
MAX22702 EV Kit PCB Layout—Top Silkscreen
MAX22702 EV Kit PCB Layout—Top View
Maxim Integrated
│ 15
www.maximintegrated.com
MAX22700‒MAX22702
Evaluation Kits
Evaluates: MAX22700D‒MAX22702D
MAX22700E‒MAX22702E
MAX22702 EV Kit PCB Layout Diagrams (continued)
1.0ꢀꢀ
1.0ꢀꢀ
MAX22702 EV Kit PCB Layout—L3 PWR
MAX22702 EV Kit PCB Layout—L2 GND
Maxim Integrated
│ 16
www.maximintegrated.com
MAX22700‒MAX22702
Evaluation Kits
Evaluates: MAX22700D‒MAX22702D
MAX22700E‒MAX22702E
MAX22702 EV Kit PCB Layout Diagrams (continued)
1.0ꢀꢀ
1.0ꢀꢀ
MAX22702 EV Kit PCB Layout—Bottom Silkscreen
MAX22702 EV Kit—Bottom View
Maxim Integrated
│ 17
www.maximintegrated.com
MAX22700‒MAX22702
Evaluation Kits
Evaluates: MAX22700D‒MAX22702D
MAX22700E‒MAX22702E
Revision History
REVISION
NUMBER
REVISION
DATE
PAGES
CHANGED
DESCRIPTION
0
1
10/19
3/20
Initial release
—
Removed future product designation from MAX22702EVKIT# in the Ordering
Information table
7
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.
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Maxim Integrated and the Maxim Integrated logo are trademarks of Maxim Integrated Products, Inc.
2020 Maxim Integrated Products, Inc.
│ 18
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