MP2380DN-LF-Z [MPS]
Switching Regulator, Current-mode, 7.3A, 800kHz Switching Freq-Max, PDSO8, ROHS COMPLIANT, MS-012BA, SOIC-8;型号: | MP2380DN-LF-Z |
厂家: | MONOLITHIC POWER SYSTEMS |
描述: | Switching Regulator, Current-mode, 7.3A, 800kHz Switching Freq-Max, PDSO8, ROHS COMPLIANT, MS-012BA, SOIC-8 开关 光电二极管 |
文件: | 总11页 (文件大小:371K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
MP2380
5A, 21V, 600KHz
Step-Down Converter
The Future of Analog IC Technology
DESCRIPTION
FEATURES
The MP2380 is a monolithic step-down switch
mode converter with a built in high-side power
MOSFET. It achieves 5A continuous output
current over a wide input supply range with
excellent load and line regulation.
•
•
•
•
•
•
•
•
•
•
Wide 4.5V to 21V Operating Input Range
5A Continuous Output Current
45mΩ Internal Power MOSFET Switch
Power Good Indicator
Fixed 600KHz Frequency
Synchronizable Up to 1.5 MHz
Cycle-by-Cycle Over Current Protection
Thermal Shutdown
Output Adjustable from 0.8V
Stable with Low ESR Output Ceramic
Capacitors
Current mode operation provides fast transient
response and eases loop stabilization.
Fault condition protection includes cycle-by-cycle
current limiting and thermal shutdown.
The MP2380 requires a minimum number of
readily available standard external components
and is available in an 8-pin SOIC package with
exposed pad.
•
Available in a Thermally Enhanced 8-Pin
SOIC Package
APPLICATIONS
•
•
•
Distributed Power Systems
Battery Charger
Pre-Regulator for Linear Regulators
“MPS” and “The Future of Analog IC Technology” are Registered Trademarks of
Monolithic Power Systems, Inc.
TYPICAL APPLICATION
8
2
1
Efficiency vs
Output Current
V
IN
BST
IN
100
V
=4.5V
95
90
85
80
75
70
65
60
55
50
IN
3
6
7
VCC
PG
V
OUT
3.3V @ 5A
SW
MP2380
V
=12V
IN
D1
B530C
POWER
GOOD
VCC
5
EN/SYNC
GND
FB
OFF ON
V
=3.3V
4
OUT
4
1
2
3
5
OUTPUT CURRENT (A)
MP2380 Rev.1.2
5/26/2008
www.MonolithicPower.com
MPS Proprietary Information. Unauthorized Photocopy and Duplication Prohibited.
© 2008 MPS. All Rights Reserved.
1
MP2380 – 5A, 21V, 600KHz STEP-DOWN CONVERTER
PACKAGE REFERENCE
ABSOLUTE MAXIMUM RATINGS (1)
Supply Voltage VIN....................................... 23V
VSW............................................................... 24V
VBST -VSW........................................................ 6V
All Other Pins.................................–0.3V to +6V
Junction Temperature...............................150°C
Lead Temperature....................................260°C
Storage Temperature ..............–65°C to +150°C
TOP VIEW
SW
BST
VCC
GND
1
2
3
4
8
7
6
5
IN
EN/SYNC
PG
Recommended Operating Conditions (2)
Supply Voltage VIN........................... 4.5V to 21V
Operating Temperature .............–40°C to +85°C
FB
EXPOSED PAD
ON BACKSIDE
Thermal Resistance (3)
θJA
θJC
SOIC8E ..................................50...... 10... °C/W
Part Number*
MP2380DN
Package
SOIC8E
Temperature
–40°C to +85°C
Notes:
1) Exceeding these ratings may damage the device.
2) The device is not guaranteed to function outside of its
operating conditions.
For Tape & Reel, add suffix –Z (e.g. MP2380DN–Z)
For RoHS Compliant Packaging, add suffix –LF
(e.g. MP2380DN–LF–Z)
*
3) Measured on approximately 1” square of 1 oz copper.
ELECTRICAL CHARACTERISTICS
VIN = 12V, TA = +25°C, unless otherwise noted.
Parameters
Feedback Voltage
Symbol Condition
Min
Typ
Max
Units
V
nA
µA
mΩ
µA
A
KHz
KHz
%
VFB
0.788 0.808 0.828
4.5V ≤ VIN ≤ 21V
VFB = 0.8V
VFB = 2V
10
2
45
0
7.3
600
150
90
Feedback Current
IFB
Switch On Resistance (4)
Switch Leakage
RDS(ON)
75
25
VEN = 0V, VSW = 0V
Current Limit (4)
6.5
400
60
Oscillator Frequency
Fold-back Frequency
Maximum Duty Cycle
fSW
VFB = 0.6V
VFB = 0V
800
240
VFB = 0.6V
85
Minimum On Time
tON
100
4.1
880
ns
V
mV
V
V
Under Voltage Lockout Threshold Rising
Under Voltage Lockout Threshold Hysteresis
EN Input Low Voltage
3.9
1.2
4.3
0.4
En Input High Voltage
VEN = 2V
VEN = 0V
2
0
EN Input Current
µA
Sync Frequency Range (Low)
Sync Frequency Range (High)
Enable Turnoff Delay
FSYNCL
FSYNCH
TOFF
300
1.5
5.0
KHz
MHz
us
Supply Current (Shutdown)
Supply Current (Quiescent)
Thermal Shutdown
VEN = 0V
VEN = 2V, VFB = 1V
25
1.1
µA
mA
°C
0.9
150
Power Good Control
Power Good Threshold Rising
Power Good Threshold Hysteresis
PG Pin Level
0.69
0.74
40
0.79
0.4
V
mV
V
VPG
PG Sink 4mA
Note:
4) Guaranteed by design.
MP2380 Rev.1.2
5/26/2008
www.MonolithicPower.com
MPS Proprietary Information. Unauthorized Photocopy and Duplication Prohibited.
© 2008 MPS. All Rights Reserved.
2
MP2380 – 5A, 21V, 600KHz STEP-DOWN CONVERTER
PIN FUNCTIONS
Pin #
Name
Description
1
SW
Switch Output.
Bootstrap. This capacitor is needed to drive the power switch’s gate above the supply
voltage. It is connected between SW and BS pins to form a floating supply across the power
switch driver.
2
3
4
BST
VCC
GND
Bias Supply. Decouple this pin with a 1µF ceramic capacitor.
Ground. This pin is the voltage reference for the regulated output voltage. For this reason
care must be taken in its layout. This node should be placed outside of the D1 to C1 ground
path to prevent switching current spikes from inducing voltage noise into the part.
Feedback. An external resistor divider from the output to GND, tapped to the FB pin sets
the output voltage. To prevent current limit run away during a short circuit fault condition the
frequency foldback comparator lowers the oscillator frequency when the FB voltage is
below 250mV.
5
6
FB
Power Good Indicator. Connect this pin to VCC or VOUT by a 100kꢀ pull-up resistor. The
output of this pin is low if the output voltage is 10% less than the nominal voltage, otherwise
it is an open drain.
PG
7
8
EN/SYNC On/Off Control Input and Synchronization Pin.
Supply Voltage. The MP2380 operates from a +4.5V to +21V unregulated input. C1 is
IN
needed to prevent large voltage spikes from appearing at the input.
MP2380 Rev.1.2
5/26/2008
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© 2008 MPS. All Rights Reserved.
3
MP2380 – 5A, 21V, 600KHz STEP-DOWN CONVERTER
TYPICAL PERFORMANCE CHARACTERISTICS
VIN = 12V, VOUT = 3.3V, L = 4.7µH, TA = +25ºC, unless otherwise noted.
Output Ripple
Efficiency vs
Short Circuit Steady
Output Current
I
= 5A
OUT
100
95
90
85
80
75
70
65
60
55
50
V
=4.5V
I
IN
L
V
2A/div.
OUT
1V/div.
V
V
=12V
IN
SW
10V/div.
V
PG
5V/div.
V
SW
10V/div.
V
OUT
10mV/div.
I
L
10A/div.
400ns/div.
1
2
3
4
5
OUTPUT CURRENT (A)
Power Up
Startup Through Enable
Startup Through Enable
I
= 5A (Resistive Load)
I
= 5A (Resistive Load)
No Load
OUT
OUT
V
V
OUT
OUT
2V/div.
2V/div.
V
OUT
1V/div.
V
V
V
PG
PG
PG
5V/div.
5V/div.
5V/div.
V
V
V
EN
IN
EN
5V/div.
5V/div.
10V/div.
1ms/div.
1ms/div.
1ms/div.
Power Down
Input Ripple Voltage
Load Transient Response
I
= 5A
OUT
I
= 3A to 6A step @ 1A/µ s
OUT
V
OUT
2V/div.
V
SW
V
5V/div.
OUT,AC
100mV/div.
V
PG
5V/div.
V
SW
10V/div.
V
V
IN
IN
10V/div.
100mV/div.
I
L
I
L
5A/div.
5A/div.
MP2380 Rev.1.2
5/26/2008
www.MonolithicPower.com
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© 2008 MPS. All Rights Reserved.
4
MP2380 – 5A, 21V, 600KHz STEP-DOWN CONVERTER
TYPICAL PERFORMANCE CHARACTERISTICS (continued)
VIN = 12V, VOUT = 3.3V, L = 4.7µH, TA = +25ºC, unless otherwise noted.
Enabled Supply Current
Disabled Supply Current
vs. Input Voltage
vs. Input Voltage
Internal Regulator Line
Regulation (IBYP = 10mA)
1100
1050
1000
950
0.45
0.40
0.35
0.30
0.25
0.20
0.15
0.10
0.05
0
4.9
4.7
4.5
4.3
4.1
3.9
3.7
3.5
900
0
5
10
15
20
25
4
4.5
5
5.5
6
6.5
7
0
5
10
15
20
25
INPUT VOLTAGE (V)
INPUT VOLTAGE (A)
INPUT VOLTAGE (V)
Line Regulation
Case Temperature vs.
Output Current
Load Regulation
80
70
60
50
40
30
20
10
0
1.0025
1.0020
1.0015
1.0010
1.0000
0.9995
0.9990
0.9985
0.9980
1.0002
1.0000
0.9998
0.9996
0.9994
0.9992
0.9990
0.9998
0.9986
I
=0A
OUT
V
=12V
IN
I
=2.5A
=5A
OUT
I
V
=20V
IN
OUT
0
1
2
3
4
5
6
0
5
10
15
20
25
0
1
2
3
4
5
6
OUTPUT CURRENT (A)
INPUT VOLTAGE (V)
OUTPUT CURRENT (A)
Peak Current vs.
Duty Cycle
10
8
6
4
2
0
10
30
DUTY CYCLE (%)
70
50
90
MP2380 Rev.1.2
5/26/2008
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© 2008 MPS. All Rights Reserved.
5
MP2380 – 5A, 21V, 600KHz STEP-DOWN CONVERTER
OPERATION
IN
CURRENT SENSE
D2
AMPLIFIER
- -
+
x40
ƒ″
REGULATOR
BST
SW
PG
OSCILLATOR
600KHz
REGULATOR
EN/SYNC
VCC
Q
DRIVER
S
+
--
R
R
CURRENT
LIMIT
COMPARATOR
1pF
0.74V
REFERENCE
0.81 V
54pF
REF
+
--
+
POWER
GOOD
--
FB
PWM
ERROR
AMPLIFIER
COMPARATOR
GND
Figure 1—Functional Block Diagram
Error Amplifier
The MP2380 is a fixed frequency, non-synchronous
step-down switching regulator with an integrated
high-side power MOSFET. It achieves 5A
continuous output current over a wide input
supply range with excellent load and line
regulation. It provides a single highly efficient
solution with current mode control for fast loop
response and easy compensation.
The error amplifier compares the FB pin voltage
with the internal 0.81V reference (REF) and
outputs a current proportional to the difference
between the two. This output current is then
used to charge or discharge the internal
compensation network to form the COMP
voltage, which is used to control the power
MOSFET current. The optimized internal
compensation network minimizes the external
component counts and simplifies the control
loop design.
The MP2380 operates in a fixed frequency,
peak current control mode to regulate the
output voltage. A PWM cycle is initiated by the
internal clock. The integrated high-side power
MOSFET is turned on and remains on until its
current reaches the value set by the COMP
voltage. When the power switch is off, it
remains off until the next clock cycle starts. If, in
90% of one PWM period, the current in the
power MOSFET does not reach the COMP set
current value, the power MOSFET will be
forced to turn off.
Internal Regulator
Most of the internal circuitries are powered from
the 5V internal regulator. This regulator takes
the VIN input and operates in the full VIN range.
When VIN is greater than 5.0V, the output of
the regulator is in full regulation. When VIN is
lower than 5.0V, the output decreases. A 1µF
ceramic capacitor for decoupling purpose is
required.
Power Good Indicator
When the FB is below 0.74V, the PG pin will be
internally pulled low. When the FB is above
0.74V, the PG becomes an open-drain output.
MP2380 Rev.1.2
5/26/2008
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© 2008 MPS. All Rights Reserved.
6
MP2380 – 5A, 21V, 600KHz STEP-DOWN CONVERTER
Enable/Synch Control
Thermal Shutdown
The MP2380 has a dedicated Enable/Synch
control pin (EN/SYNC). By pulling it high or low,
the IC can be enabled and disabled by EN. Tie
EN to VIN for automatic start up. To disable the
part, EN must be pulled low for at least 5µs.
Thermal shutdown is implemented to prevent
the chip from operating at exceedingly high
temperatures. When the silicon die temperature
is higher than 150°C, it shuts down the whole
chip. When the temperature is lower than its
lower threshold, typically 140°C, the chip is
enabled again.
The MP2380 can be synchronized to external
clock range from 300KHz up to 1.4MHz through
the EN/SYNC pin. The internal clock rising
edge is synchronized to the external clock rising
edge.
Floating Driver and Bootstrap Charging
The floating power MOSFET driver is powered
by an external bootstrap capacitor. This floating
driver has its own UVLO protection. This
UVLO’s rising threshold is 2.2V with a
hysteresis of 150mV. The bootstrap capacitor
voltage is regulated internally (Figure 2). Even
at no load condition, as long as VIN is 3V higher
than VOUT, C4 will have enough voltage
provided by VIN through D2, M2, C4, L1 and C2.
If (VIN-VSW) is more than 5V, U2 will regulate M2
to maintain a 5V BST voltage across C4.
Under-Voltage Lockout (UVLO)
Under-voltage lockout (UVLO) is implemented
to protect the chip from operating at insufficient
supply voltage. The MP2380 UVLO comparator
monitors the output voltage of the internal
regulator,VCC. The UVLO rising threshold is
about 4.0V while its falling threshold is about
3.6V.
Internal Soft-Start
D2
The soft-start is implemented to prevent the
converter output voltage from overshooting
during startup. When the chip starts, the
internal circuitry generates a soft-start voltage
(SS) ramping up from 0V to 1.2V. When it is
lower than the internal reference (REF), SS
overrides REF so the error amplifier uses SS as
the reference. When SS is higher than REF,
REF regains control.
V
IN
M2
+
--
BST
SW
+
--
U2
5V
C4
V
OUT
L1
C2
Over-Current-Protection and Hiccup
The MP2380 has cycle-by-cycle over current
limit when the inductor current peak value
exceeds the set current limit threshold.
Meanwhile, output voltage starts to drop until
FB is below the Under-Voltage(UV) threshold,
typically 30% below the reference. Once a UV
is triggered, the MP2380 enters hiccup mode to
periodically restart the part. This protection
mode is especially useful when the output is
dead-short to ground. The average short circuit
current is greatly reduced to alleviate the
thermal issue and to protect the regulator. The
MP2380 exits the hiccup mode once the over
current condition is removed.
Figure 2—Internal Bootstrap Charging Circuit
Startup and Shutdown
If both VIN and EN are higher than their
appropriate thresholds, the chip starts. The
reference block starts first, generating stable
reference voltage and currents, and then the
internal regulator is enabled. The regulator
provides stable supply for the remaining
circuitries.
Three events can shut down the chip: EN low,
VIN low and thermal shutdown. In the shutdown
procedure, the signaling path is first blocked to
avoid any fault triggering. The COMP voltage
and the internal supply rail are then pulled down.
The floating driver is not subject to this
shutdown command.
MP2380 Rev.1.2
5/26/2008
www.MonolithicPower.com
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© 2008 MPS. All Rights Reserved.
7
MP2380 – 5A, 21V, 600KHz STEP-DOWN CONVERTER
APPLICATION INFORMATION
The schematic on the front page shows a typical
MP2380 application. The IC can provide up to
5A output current at a nominal output voltage of
3.3V. For proper thermal performance, the
exposed pad of the device must be soldered
down to the printed circuit board.
Output Rectifier Diode
The output rectifier diode supplies the current to
the inductor when the high-side switch is off. To
reduce losses due to the diode forward voltage
and recovery times, use a Schottky diode.
Choose a diode whose maximum reverse
voltage rating is greater than the maximum
input voltage, and whose current rating is
greater than the maximum load current. Table 2
Setting the Output Voltage
The external resistor divider is used to set the
output voltage (see the schematic on front
page). The feedback resistor R1 also sets the
feedback loop bandwidth with the internal
compensation capacitor (see Figure 1). Choose
R1 for optimal transient response. R2 is then
given by:
lists
example
Schottky
diodes
and
manufacturers.
Table 2—Diode Selection Guide
Voltage/Current
Diode
Rating
30V, 5A
30V, 6A
Manufacture
Diodes Inc.
On Semi
R1
R2 =
VOUT
B530C
− 1
0.8V
MBRD630CT
Table 1—Resistor Selection for Common
Output Voltages
Selecting the Input Capacitor
The input capacitor (C1) reduces the surge
current drawn from the input and the switching
noise from the device. The input capacitor
impedance at the switching frequency should
be less than the input source impedance to
prevent high frequency switching current from
passing to the input. Ceramic capacitors with
VOUT (V)
1
R1 (kΩ)
162 (1%)
162 (1%)
40.2 (1%)
40.2 (1%)
40.2 (1%)
40.2 (1%)
R2 (kΩ)
649 (1%)
324 (1%)
32.4 (1%)
19.1 (1%)
13 (1%)
1.2
1.8
2.5
3.3
5
X5R
or
X7R
dielectrics
are
highly
7.68 (1%)
recommended because of their low ESR and
small temperature coefficients. For 5A output
applications, a 22µF capacitor is sufficient.
Selecting the Inductor
A 1µH to 10µH inductor with a DC current rating
of at least 25% percent higher than the
maximum load current is recommended for
most applications. For highest efficiency, the
inductor DC resistance should be less than
15mꢀ. For most designs, the inductance value
can be derived from the following equation.
Selecting the Output Capacitor
The output capacitor (C2) keeps output voltage
small ripple and ensures regulation loop
stability. The output capacitor impedance
should be low at the switching frequency.
Ceramic capacitors with X5R or X7R dielectrics
are recommended.
VOUT × (VIN − VOUT
VIN × ∆IL × fOSC
)
L =
Where ∆IL is the inductor ripple current.
Choose inductor current to be approximately
30% of the maximum load current, 5A. The
maximum inductor peak current is:
∆IL
IL(MAX) = ILOAD
+
2
Under light load conditions below 100mA, larger
inductance is recommended for improved efficiency.
MP2380 Rev.1.2
5/26/2008
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8
MP2380 – 5A, 21V, 600KHz STEP-DOWN CONVERTER
PCB Layout Guide
PCB layout is very important to achieve stable
operation. Please follow these guidelines and
take Figure3 and 4 for references.
1) Keep the path of switching current short
and minimize the loop area formed by Input
cap, high-side MOSFET and schottky diode.
2) Keep the connection of schottky diode
between SW pin and input power ground
as short and wide as possible.
3) Ensure all feedback connections are short
and direct. Place the feedback resistors
and compensation components as close to
the chip as possible.
4) Route SW away from sensitive analog
areas such as FB.
Top Layer
5) Connect IN, SW, and especially GND
respectively to a large copper area to cool
the chip to improve thermal performance
and long-term reliability. For single layer
PCB, exposed pad should not be soldered.
Bottom Layer
Figure 4—PCB Layout for Double Layers
Figure 3—PCB Layout for Single Layer
MP2380 Rev.1.2
5/26/2008
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MP2380 – 5A, 21V, 600KHz STEP-DOWN CONVERTER
External Bootstrap Diode
An external bootstrap diode may enhance the
efficiency of the regulator, the applicable
conditions of external BST diode are:
z
z
VOUT=5V or 3.3V; and
Duty cycle is high: D=
VOUT
VIN
>65%
In these cases, an external BST diode is
recommended from the output of the voltage
regulator to BST pin, as shown in Fig.5
External BST Diode
IN4148
BST
CBST
MP2380
5V or 3.3V
SW
+
COUT
L
Figure 5—Add Optional External Bootstrap
Diode to Enhance Efficiency
The recommended external BST diode is
IN4148, and the BST cap is 0.1~1µF.
By using this circuit, 5V input voltage can output
3.3V and 2.5V with just 30mA load.
MP2380 Rev.1.2
5/26/2008
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10
MP2380 – 5A, 21V, 600KHz STEP-DOWN CONVERTER
PACKAGE INFORMATION
SOIC8E (EXPOSED PAD)
0.189(4.80)
0.197(5.00)
0.124(3.15)
0.136(3.45)
8
5
0.150(3.80)
0.157(4.00)
0.228(5.80)
0.244(6.20)
0.089(2.26)
0.101(2.56)
PIN 1 ID
1
4
TOP VIEW
BOTTOM VIEW
SEE DETAIL "A"
0.051(1.30)
0.067(1.70)
SEATING PLANE
0.000(0.00)
0.006(0.15)
0.0075(0.19)
0.0098(0.25)
0.013(0.33)
0.020(0.51)
SIDE VIEW
0.050(1.27)
BSC
FRONT VIEW
0.010(0.25)
0.020(0.50)
x 45o
GAUGE PLANE
0.010(0.25) BSC
0.050(1.27)
0.024(0.61)
0.063(1.60)
0.016(0.41)
0.050(1.27)
0o-8o
DETAIL "A"
0.103(2.62)
0.213(5.40)
NOTE:
1) CONTROL DIMENSION IS IN INCHES. DIMENSION IN
BRACKET IS IN MILLIMETERS.
2) PACKAGE LENGTH DOES NOT INCLUDE MOLD FLASH,
PROTRUSIONS OR GATE BURRS.
3) PACKAGE WIDTH DOES NOT INCLUDE INTERLEAD FLASH
OR PROTRUSIONS.
0.138(3.51)
4) LEAD COPLANARITY (BOTTOM OF LEADS AFTER FORMING)
SHALL BE 0.004" INCHES MAX.
5) DRAWING CONFORMS TO JEDEC MS-012, VARIATION BA.
6) DRAWING IS NOT TO SCALE.
RECOMMENDED LAND PATTERN
NOTICE: The information in this document is subject to change without notice. Users should warrant and guarantee that third
party Intellectual Property rights are not infringed upon when integrating MPS products into any application. MPS will not
assume any legal responsibility for any said applications.
MP2380 Rev.1.2
5/26/2008
www.MonolithicPower.com
MPS Proprietary Information. Unauthorized Photocopy and Duplication Prohibited.
© 2008 MPS. All Rights Reserved.
11
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1A, 21V, 2MHz, High-Efficiency, Synchronous, Step-Down Converter in Ultra-Thin QFN Package
MPS
MP2388GQEU
1A, 21V, 2MHz, High-Efficiency, Synchronous, Step-Down Converter in Ultra-Thin QFN Package
MPS
MP2396ES-LF
Switching Regulator, Current-mode, 650kHz Switching Freq-Max, PDSO8, ROHS COMPLIANT, MS-012AA, SOIC-8
MPS
MP2396ES-Z-LF
Switching Regulator, Current-mode, 650kHz Switching Freq-Max, PDSO8, ROHS COMPLIANT, MS-012AA, SOIC-8
MPS
MP240-1
Series - Fundamental Quartz Crystal, 24MHz Nom, ROHS COMPLIANT, RESISTANCE WELD, METAL, HC-49/U, 2 PIN
CTS
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