MURATA LSN-T10-D12J

LSN-T/10-D12
Single Adjustable Output, Non-isolated, 12Vin, 10A, SIP, DC/DC Converters
High power density building blocks ideal for on-board
power-distribution schemes in which isolated 12V buses
deliver power to any number of non-isolated, step-down
buck regulators.
Typical Units
FEATURES
PRODUCT OVERVIEW
Step-down buck regulators for new distributed
12V power architectures
LSN D12 DC/DC's accept a 12V input (10-14V input
range) and convert it, with the highest efficiency in
the smallest space, to a 0.75 to 5 Volt output fully
rated at 10 Amps. The output is user-adjustable by
trim resistor or adjustment voltage.
12V input (10-14V range)
0.75-5VOUT @10 Amps
Non-isolated, fixed-frequency, synchronousrectifier topology
Outstanding performance:
• Efficiencies to 96.5% @ 10 Amps
• Low noise
• Stable no-load operation
• Adjustable output voltage
Remote on/off control
Sense pin on standard models
Thermal shutdown
No derating to +85°C with 100 lfm
UL/IEC/EN60950 applied for
EMC compliant
Start up into pre-biased Load
LSN D12's are ideal point-of-use/load power
processors. They typically require no external
components. Their vertical-mount packages
occupy a mere 0.7 square inches (4.5 sq. cm),
and reversed pin vertical mount allows mounting
to meet competitor's keep out area. Horizontalmount packages ("H" suffix) are only 0.35 inches
(8.89mm) high.
The LSN's best-in-class power density is achieved
with a fully synchronous, fixed-frequency, buck
topology that also delivers: high efficiency (96.5%
for 5VOUT models), low noise (35mVp-p typ.), tight
line/load regulation, quick step response (50μsec),
stable no-load operation, and no output reverse
conduction.
The fully functional LSN’s feature output
overcurrent detection, continuous short-circuit
protection, an output-voltage trim function, a
remote on/off control pin, thermal shutdown and a
sense pin. High efficiency enables, the LSN D12's to
deliver rated output currents of 10 Amps at ambient
temperatures to +85°C with natural convection.
If your new system boards call for three or more
supply voltages, check out the economics of
on-board 12V distributed power. If you don't need
to pay for multiple isolation barriers, Datel nonisolated LSN D12 SIP's will save you money.
SIMPLIFIED SCHEMATIC
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For devices with the sense-pin removed ("B" suffix), the feedback path is through the +Output pin and not the +Sense pin.
Typical topology is shown
For full details go to
www.murata-ps.com/rohs
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Technical enquiries email: [email protected], tel: +1 508 339 3000
LSN-T10-D12.B01 Page 1 of 12
LSN-T/10-D12
Single Adjustable Output, Non-isolated, 12Vin, 10A, SIP, DC/DC Converters
PERFORMANCE SPECIFICATIONS AND ORDERING GUIDE Output
Model LSN-T/10-D12
Input
R/N (mVp-p) VOUT
(Volts)
IOUT
(Amps)
Typ.
Max.
Line
0.7525-5.5
10
35
55
±0.06%
Efficiency
Load
VIN Nom.
(Volts)
Range
(Volts)
IIN (mA/A)
Min.
Typ.
Typ.
Package
(Case/
Pinout)
±0.2%
12
10-14
80/4.32
95.5%
96.5%
97%
B5/B5x, P59
Regulation (Max.) Typical at TA = +25°C under nominal line voltage, VOUT = 5V, and full-load conditions, unless
otherwise noted. All models are tested and specified with external 22μF tantalum input and output
capacitors. These capacitors are necessary to accommodate our test equipment and may not
be required to achieve specified performance in your applications. See I/O Filtering and Noise
Reduction.
Ripple/Noise (R/N) is tested/specified over a 20MHz bandwidth and may be reduced with external
filtering. See I/O Filtering and Noise Reduction for details.
Full Load
VIN=10V
These devices have no minimum-load requirements and will regulate under no-load conditions.
Regulation specifications describe the output-voltage deviation as the line voltage or load is
varied from its nominal/midpoint value to either extreme.
Nominal line voltage, no-load/full-load conditions.
This is not a complete model number. Please see the Part Number Structure when ordering.
MECHANICAL SPECIFICATIONS - VERTICAL MOUNTING
PART NUMBER STRUCTURE
Case B5 - Vertical Mounting
(Standard)
L SN - T / 10 - D12 N H J - C
Output
Configuration:
L = Unipolar
RoHS-6 Compliant
J Suffix:
Reversed Pin
Vertical Mount
0.17
(4.32)
H Suffix:
Horizontal Mount
N Suffix:
On/Off Polarity:
Blank = Positive logic
N = Negative logic
Nominal Output Voltage:
T = 0.75 - 5.25
Maximum Rated Output
Current in Amps
0.34
(8.64)
2.00
(50.80)
0.20
(5.08)
6 7 8 9 10 11
1 2 3 4 5
0.030 ±0.001 DIA.
(0.762 ±0.025)
1.000
(25.40)
0.400
(10.16)
4 EQ. SP. @
0.100 (2.54)
Note:
Input Voltage Range:
Not all model number combinations
D12 = 10-14 Volts
are available. Contact Murata Power
(12V nominal)
Solutions.
0.55
(13.97)
0.05
(1.27)
0.500
(12.70)
5 EQ. SP. @
0.100 (2.54)
0.046
(1.17)
0.34
(8.64)
LAYOUT PATTERN
TOP VIEW
0.25
(6.35)
Case B5B - Reverse Pin Vertical Mounting
(Tyco-compatible package)
MECHANICAL SPECIFICATIONS - HORIZONTAL MOUNTING
Case B5A - Horizontal Mounting
6 7 8 9 10 11
0.030 ±0.001 DIA.
(0.762 ±0.025)
0.400
(10.16)
4 EQ. SP. @
0.100 (2.54)
0.56
(14.22)
1.000
(25.40)
6 7 8 9 10 11
1 2 3 4 5
0.030 ±0.001 DIA.
(0.762 ±0.025)
1.000
(25.40)
0.400
(10.16)
4 EQ. SP. @
0.100 (2.54)
0.16
(4.06
0.05
(1.27)
0.360
(9.14)
0.500
(12.70)
5 EQ. SP. @
0.100 (2.54)
0.55
(13.97)
ISOLATING
PAD
0.55
(13.97)
0.306
(7.8)
0.046
(1.17)
0.05
(1.27)
0.106
(2.69)
0.500
(12.70)
5 EQ. SP. @
0.100 (2.54)
LAYOUT PATTERN
TOP VIEW
0.36
(9.14)
All dimension in Inches (mm)
0.53
(13.46)
0.55
(13.97)
0.50
(12.7)
RECOMMENDED
COPPER PAD
ON PCB (0.55 SQ. IN.)
0.36
(9.14)
0.20
(5.08)
0.17
(4.32)
0.21
(5.33)
0.05
(1.27)
1 2 3 4 5
2.00
(50.80)
0.35
(8.89)
2.00
(50.80)
0.110
(2.79)
LAYOUT PATTERN
TOP VIEW
All dimension in Inches (mm)
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Pin
1
2
3
4
Function P59
+Output
+Output
+Sense
+Output
I/O Connections
Pin
Function P59
5
Common
6
Common
7
+Input
8
+Input
Pin
9
10
11
Function P59
No Pin
VOUT Trim
On/Off Control
Technical enquiries email: [email protected], tel: +1 508 339 3000
LSN-T10-D12.B01 Page 2 of 12
LSN-T/10-D12
Single Adjustable Output, Non-isolated, 12Vin, 10A, SIP, DC/DC Converters
Performance/Functional Specifications
Typical @ TA = +25°C under nominal line voltage, VOUT=5V, and full-load conditions unless noted. Input
Absolute Maximum Ratings
Input Voltage Range
10-14 Volts (12V nominal)
Input Current:
Normal Operating Conditions
Inrush Transient
Standby/Off Mode
Output Short-Circuit Condition See Ordering Guide
0.02A2sec
5mA
60mA average
Input Reflected Ripple Current 30mAp-p
Input Voltage:
Continuous or transient
14 Volts
On/Off Control (Pin 11)
+VIN
Input Reverse-Polarity Protection
None
Output Overvoltage Protection
None
Output Current
Current limited. Devices can
withstand sustained output short
circuits without damage.
Input Filter Type
Capacitive
Overvoltage Protection
None
Reverse-Polarity Protection
None
Storage Temperature
–40 to +125°C
Start-up Voltage
9.2 Volts
Lead Temperature (soldering, 10 sec.)
+280°C
Undervoltage Shutdown
8 Volts
On/Off Control Positive Polarity (no suffix)
Negative Polarity
On = Pin open to +VIN max.
Off = Zero (ground) to +0.8V max.
On = Pin open or grounded to +0.3V
Off = +2.5V to +VIN max.
On/Off Current
0.5 mA maximum
Output
Maximum Output Power 51 Watts
VOUT Accuracy (50% load)
±2%
Minimum Loading No minimum load
Maximum Capacitive Load
2,000μF (ESR < 0.02 Ohms)
10,000μF (ESR > 0.02 Ohms)
VOUT Trim Range +0.7525 to +5.5 Volts (no load)
Ripple/Noise (20MHz BW) See Ordering Guide
Extreme Accuracy
3% max. over line/load/temperature
Efficiency See Ordering Guide
Pre-Bias Startup
Converter will start up if the external output
voltage is less than Vsetpoint
These are stress ratings. Exposure of devices to any of these conditions may adversely
affect long-term reliability. Proper operation under conditions other than those listed in
the Performance/Functional Specifications Table is not implied.
All models are tested and specified with external 22μF tantalum input and 10 || 1μF output
capacitors.These capacitors are necessary to accommodate our test equipment and may not
be required to achieve specified performance in your applications. All models are stable and
regulate within spec under no-load conditions.
See Technical Notes and Performance Curves for details.
The On/Off Control (pin 11) is designed to be driven with open-collector logic or the application of appropriate voltages (referenced to Common, pins 5 and 6).
Output noise may be further reduced with the installation of additional external output
filtering. See I/O Filtering and Noise Reduction.
MTBF’s are calculated using Telcordia SR-332(Bellcore), ground fixed, TA = +25°C, full
power, natural convection.
Do not exceed maximum rated output power when adjusting the output voltage.
Overcurrent Detection and Short-Circuit Protection: Current-Limit Inception
Cold Condition
21 Amps
Short-Circuit Detection Point
98% of VO U T set
SC Protection Technique
Hiccup with auto recovery
Short-Circuit Current
400mA average
Dynamic Characteristics
Transient Response (50-100-50% load) 50μsec to ±2% of final value
Start-Up Time: VIN to VOUT and On/Off to VOUT
8msec
Switching Frequency:
250 ±30 KHz
Environmental
Calculated MTBF TBC
Operating Temperature: (Ambient) Without Derating (Natural convection) –40 to +85°C
With Derating
See Derating Curves
Storage Temperature
-40 to +125°C
Thermal Shutdown
+115°C
Physical
Dimensions
See Mechanical Specifications
Pin Dimensions/Material
0.03" (0.76mm) dia. round copper with
tin plate over nickel underplate.
Length: 0.17” (4.32mm)
Weight
0.3 ounces (8.5g)
Flamability Rating
UL94V-0
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Technical enquiries email: [email protected], tel: +1 508 339 3000
LSN-T10-D12.B01 Page 3 of 12
LSN-T/10-D12
Single Adjustable Output, Non-isolated, 12Vin, 10A, SIP, DC/DC Converters
should be installed within the ungrounded input path to the converter.
TECHNICAL NOTES
Return Current Paths
The LSN D12 SIP’s are non-isolated DC/DC converters. Their two Common
pins (pins 5 and 6) are connected to each other internally (see Figure 1). To
the extent possible (with the intent of minimizing ground loops), input return
current should be directed through pin 6 (also referred to as –Input or Input
Return), and output return current should be directed through pin 5 (also
referred to as –Output or Output Return). Any on/off control signals applied to
pin 11 (On/Off Control) should be referenced to Common
(specifically pin 6).
I/O Filtering and Noise Reduction
All models in the LSN D12 Series are tested and specified with external 22μF
tantalum input and 10 || 1μF output capacitors. These capacitors are necessary to accommodate our test equipment and may not be required to achieve
desired performance in your application. The LSN D12's are designed with
high-quality, high-performance internal I/O caps, and will operate within spec
in most applications with no additional external components.
In particular, the LSN D12's input capacitors are specified for low ESR and are
fully rated to handle the units' input ripple currents. Similarly, the internal output capacitors are specified for low ESR and full-range frequency response.
In critical applications, input/output ripple/noise may be further reduced using
filtering techniques, the simplest being the installation of external I/O caps.
External input capacitors serve primarily as energy-storage devices. They
minimize high-frequency variations in input voltage (usually caused by IR
drops in conductors leading to the DC/DC) as the switching converter draws
pulses of current. Input capacitors should be selected for bulk capacitance
(at appropriate frequencies), low ESR, and high rms-ripple-current ratings.
The switching nature of modern DC/DC's requires that the dc input voltage
source have low ac impedance at the frequencies of interest. Highly inductive
source impedances can greatly affect system stability. Your specific system
configuration may necessitate additional considerations.
Output ripple/noise (also referred to as periodic and random deviations or
PARD) may be reduced below specified limits with the installation of additional
external output capacitors. Output capacitors function as true filter elements
and should be selected for bulk capacitance, low ESR, and appropriate frequency response. Any scope measurements of PARD should be made directly
at the DC/DC output pins with scope probe ground less than 0.5" in length.
All external capacitors should have appropriate voltage ratings and be located
as close to the converters as possible. Temperature variations for all relevant
parameters should be taken into consideration.
The most effective combination of external I/O capacitors will be a function
of your line voltage and source impedance, as well as your particular load
and layout conditions. Our Applications Engineers can recommend potential
solutions and discuss the possibility of our modifying a given device’s internal
filtering to meet your specific requirements. Contact our Applications Engineering Group for additional details.
Input Fusing
Most applications and or safety agencies require the installation of fuses at
the inputs of power conversion components. LSN D12 Series DC/DC converters are not internally fused. Therefore, if input fusing is mandatory, either
a normal-blow or a slow-blow fuse with a value no greater than 15 Amps
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As a rule of thumb however, we recommend to use a normal-blow or slowblow fuse with a typical value of about twice the maximum input current,
calculated at low line with the converters minimum efficiency.
Safety Considerations
LSN D12 SIP's are non-isolated DC/DC converters. In general, all DC/DC's
must be installed, including considerations for I/O voltages and spacing/separation requirements, in compliance with relevant safety-agency specifications (usually UL/IEC/EN60950).
In particular, for a non-isolated converter's output voltage to meet SELV (safety
extra low voltage) requirements, its input must be SELV compliant.
If the output needs to be ELV (extra low voltage), the input must be ELV.
Input Overvoltage and Reverse-Polarity Protection
LSN D12 SIP Series DC/DC's do not incorporate either input overvoltage or
input reverse-polarity protection. Input voltages in excess of the specified
absolute maximum ratings and input polarity reversals of longer than "instantaneous" duration can cause permanent damage to these devices.
Start-Up Time
The VIN to VOUT Start-Up Time is the interval between the time at which a ramping input voltage crosses the lower limit of the specified input voltage range
and the fully loaded output voltage enters and remains within its specified
accuracy band. Actual measured times will vary with input source impedance,
external input capacitance, and the slew rate and final value of the input voltage as it appears to the converter.
The On/Off to VOUT Start-Up Time assumes the converter is turned off via the
On/Off Control with the nominal input voltage already applied to the converter.
The specification defines the interval between the time at which the converter
is turned on and the fully loaded output voltage enters and remains within its
specified accuracy band. See Typical Performance Curves.
Installing the Converter
These converters may be installed into either commercial pin sockets on
0.1" centers (similar to those used with through-hole integrated circuits)
or inserted into plated-through holes on the host printed circuit board. Pin
sockets obviously facilitate repair and replacement whereas PCB mounting
is mechanically and electrically more secure. Soldered-down PCB installation
also conducts more heat away from the converter. Consider increasing the
copper etch area near the output pins.
Do not use excessive force when installing these converters. If you are not inserting the converter into pin sockets, make sure the holes on the host printed
circuit board are of adequate size and spaced properly. You may bend the pins
slightly to line them up with the PCB holes. Using two needle nose pliers, securely hold the base of the pin with one plier (where it enters the converter’s
PCB or the lead frame) and apply a very small bend with the other plier part
way down the pin length. The two-plier method avoids excessive force on the
converter’s PCB. If pins are bent too far or too great an insertion force is used
during installation, this may cause hidden damage on the converter, possibly
voiding the warranty.
Remote Sense
LSN D12 SIP Series DC/DC converters offer an output sense function on pin 3.
Technical enquiries email: [email protected], tel: +1 508 339 3000
LSN-T10-D12.B01 Page 4 of 12
LSN-T/10-D12
Single Adjustable Output, Non-isolated, 12Vin, 10A, SIP, DC/DC Converters
The sense function enables point-of-use regulation for overcoming moderate
IR drops in conductors and/or cabling. Since these are non-isolated devices
whose inputs and outputs usually share the same ground plane, sense is
provided only for the +Output.
The remote sense line is part of the feedback control loop regulating the
DC/DC converter’s output. The sense line carries very little current and
consequently requires a minimal cross-sectional-area conductor. As such,
it is not a low-impedance point and must be treated with care in layout and
cabling. Sense lines should be run adjacent to signals (preferably ground), and
in cable and/or discrete-wiring applications, twisted-pair or similar techniques
should be used. To prevent high frequency voltage differences between VOUT
and Sense, we recommend installation of a 1000pF capacitor close to the
converter.
The sense function is capable of compensating for voltage drops between the
+Output and +Sense pins that do not exceed 10% of VOUT.
[VOUT(+) – Common] – [Sense(+) – Common] ≤ 10%VOUT
Power derating (output current limiting) is based upon maximum output
current and voltage at the converter's output pins. Use of trim and sense
functions can cause the output voltage to increase, thereby increasing output
power beyond the LSN's specified rating. Therefore:
(VOUT at pins) x (IOUT) ≤ rated output power
The internal 10Ω resistor between +Sense and +Output (see Figure 1) serves
to protect the sense function by limiting the output current flowing through the
sense line if the main output is disconnected. It also prevents output voltage
runaway if the sense connection is disconnected.
Note: Connect the +Sense pin (pin 3) to +Output (pin 4) at the DC/DC converter pins, if the sense function is not used for remote regulation.
On/Off Control
The On/Off Control pin may be used for remote on/off operation. LSN-T/10-D12
SIP is designed so they are enabled when the control pin is left open (internal
pull-down to Common) and disabled when the control pin is pulled high, as
shown in Figure 2 and 2a.
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Output Overcurrent Detection
Overloading the output of a power converter for an extended period of time
will invariably cause internal component temperatures to exceed their maximum ratings and eventually lead to component failure. High-current-carrying
components such as inductors, FET's and diodes are at the highest risk. LSN
D12 SIP Series DC/DC converters incorporate an output overcurrent detection
and shutdown function that serves to protect both the power converter and its
load.
If the output current exceeds it maximum rating by typically 70% or if the
output voltage drops to less than 98% of it's original value, the LSN D12's
internal overcurrent-detection circuitry immediately turns off the converter,
which then goes into a "hiccup" mode. While hiccupping, the converter will
continuously attempt to restart itself, go into overcurrent, and then shut down.
Under these conditions, the average output current will be approximately
400mA. Once the output short is removed, the converter will automatically
restart itself.
Thermal Performance
The typical output-current thermal-derating curves shown below enable
designers to determine how much current they can reliably derive from each
model of the LSN D12 SIP's under known ambient-temperature and air-flow
conditions. Similarly, the curves indicate how much air flow is required to reliably deliver a specific output current at known temperatures.
The highest temperatures in LSN D12 SIP's occur at their output inductor,
whose heat is generated primarily by I 2 R losses. The derating curves were
developed using thermocouples to monitor the inductor temperature and
varying the load to keep that temperature below +110°C under the assorted
conditions of air flow and air temperature. Once the temperature exceeds
+115°C (approx.), the thermal protection will disable the converter. Automatic
restart occurs after the temperature has dropped below +110°C.
Lastly, when LSN D12 SIP's are installed in system boards, they are obviously
subject to numerous factors and tolerances not taken into account here. If you
are attempting to extract the most current out of these units under demanding temperature conditions, we advise you to monitor the output-inductor
temperature to ensure it remains below +110°C at all times.
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LSN D12 SIP Series DC/DC converters do not incorporate output overvoltage
protection. In the extremely rare situation in which the device’s feedback loop
is broken, the output voltage may run to excessively high levels (VOUT = VIN). If
it is absolutely imperative that you protect your load against any and all possible overvoltage situations, voltage limiting circuitry must be provided external
to the power converter.
#33
Thermal Performance for "H" Models
K7
#/--/.
Figure 2. Driving the On/Off Control Pin with an Open-Collector Drive Circuit
Dynamic control of the on/off function is best accomplished with a mechanical relay or open-collector/open-drain drive circuit. The drive circuit should
be able to sink appropriate current when activated and withstand appropriate
voltage when deactivated.The on/off control function, however, can be externally inverted so that the converter will be disabled while the input voltage is
ramping up and then "released" once the input has stabilized.
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Enhanced thermal performance can be achieved when LSN D12 SIP's are
mounted horizontally ("H" models) and the output inductor (with its electrically
isolating, thermally conductive pad installed) is thermally coupled to a copper
plane/pad (at least 0.55 square inches in area) on the system board. Your
conditions may vary, however our tests indicate this configuration delivers a
16°C to 22°C improvement in ambient operating temperatures.
Technical enquiries email: [email protected], tel: +1 508 339 3000
LSN-T10-D12.B01 Page 5 of 12
LSN-T/10-D12
Single Adjustable Output, Non-isolated, 12Vin, 10A, SIP, DC/DC Converters
Pre-Biased Startup
D12 Models Resistor Trim Equation:
Newer systems with multiple power voltages have an additional problem
besides startup sequencing. Some sections have power already partially applied (possibly because of earlier power sequencing) or have leakage power
present so that the DC/DC converter must power up into an existing voltage.
This power may either be stored in an external bypass capacitor or supplied
by an active source.
This “pre-biased” condition can also occur with some types of programmable logic or because of blocking diode leakage or small currents passed
through forward biased ESD diodes. Conventional DC/DC’s may fail to start up
correctly if there is output voltage already present. And some external circuits
are adversely affected when the low side MOSFET in a synchronous rectifier
converter sinks current at start up.
The LSN2 series includes a pre-bias startup mode to prevent these initialization problems. Essentially, the converter acts as a simple buck converter until
the output reaches its set point voltage at which time it converts to a synchronous rectifier design. This feature is variously called “monotonic” because
the voltage does not decay (from low side MOSFET shorting) or produce a
negative transient once the input power is applied and the startup sequence
begins.
10500
RTRIM (Ω) = _____________ –1000
VO – 0.7525
where VO is the desired output voltage.
VOUT 0.7525V 1.0V
RTRIM
(kΩ)
Open
1.2V
1.5V
1.8V
2V
2.5V
3.3V
5V
41.424 22.46 13.05 9.024 7.417 5.009 3.122 1.472
D12 Models Voltage Trim Equation:
VTRIM (in Volts) = 0.7 –(0.0667 x (VO – 0.7525))
where VO is the desired output voltage.
The D12 fixed trim voltages to set the output voltage are:
VOUT 0.7525V
VTRIM
(V)
Open
1.0V
1.2V
1.5V
1.8V
2V
2.5V
3.3V
5V
0.6835 0.670 0.650 0.630 0.617 0.583 0.530 0.4166
Output Adjustments
The LSN-T/10-D12J includes an output adjustment and trimming function
which is fully compatible with competitive units. The output voltage may be
varied using a single trim resistor from the Trim input to Power Common or an
external DC trim voltage applied between the Trim input and Power Common.
For resistor trim adjustments, be sure to use a precision low-tempco resistor
(±100 ppm/°C) mounted close to the converter with short leads. Since the
output accuracy is ±2% (typical), you may need to vary this resistance slightly.
For adjustments using an external voltage reference, the equivalent input impedance looking in to the Trim input is approximately 5,000 Ohms. Therefore
you may have to compensate for this in the source resistance of your external
reference. Although filtered internally, the Trim input is sensitive and therefore
susceptible to noise pickup with longer leads. Consider adding a small bypass
capacitor, 0.1μF or larger mounted adjacent to the converter between the Trim
and Power Common if there is noise in the application.
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Trim Connections
The Trim input voltage range is offset against the 0.7 Volt reference of the
PWM. Also note that the Trim input is inverting (lower trim voltage produces
higher output voltage and vice versa). Do not exceed the voltage range or
maximum power rating.
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Technical enquiries email: [email protected], tel: +1 508 339 3000
LSN-T10-D12.B01 Page 6 of 12
LSN-T/10-D12
Single Adjustable Output, Non-isolated, 12Vin, 10A, SIP, DC/DC Converters
TYPICAL PERFORMANCE CURVES FOR LSN D12 SIP SERIES
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,OAD#URRENT!MPS
,3.4$
%FFICIENCYVS,INE6OLTAGEAND,OAD#URRENT c#6/546
,3.4$
%FFICIENCYVS,INE6OLTAGEAND,OAD#URRENT c#6/546
%FFICIENCY
%FFICIENCY
6).6
6).6
6).6
6).6
6).6
6).6
,OAD#URRENT!MPS
,OAD#URRENT!MPS
,3.4$
%FFICIENCYVS,INE6OLTAGEAND,OAD#URRENT c#6/546
,3.4$
%FFICIENCYVS,INE6OLTAGEAND,OAD#URRENT c#6/546
%FFICIENCY
%FFICIENCY
6).6
6).6
6).6
6).6
6).6
6).6
,OAD#URRENT!MPS
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,OAD#URRENT!MPS
Technical enquiries email: [email protected], tel: +1 508 339 3000
LSN-T10-D12.B01 Page 7 of 12
LSN-T/10-D12
Single Adjustable Output, Non-isolated, 12Vin, 10A, SIP, DC/DC Converters
TYPICAL PERFORMANCE CURVES FOR LSN D12 SIP SERIES
,3.4$
%FFICIENCYVS,INE6OLTAGEAND,OAD#URRENT c#6/546
%FFICIENCY
%FFICIENCY
,3.4$
%FFICIENCYVS,INE6OLTAGEAND,OAD#URRENT c#6/546
6).6
6).6
6).6
6).6
6).6
6).6
,OAD#URRENT!MPS
www.murata-ps.com
,OAD#URRENT!MPS
Technical enquiries email: [email protected], tel: +1 508 339 3000
LSN-T10-D12.B01 Page 8 of 12
LSN-T/10-D12
Single Adjustable Output, Non-isolated, 12Vin, 10A, SIP, DC/DC Converters
TYPICAL PERFORMANCE CURVES FOR LSN D12 SIP SERIES
,3.4$/UTPUT#URRENTVS!MBIENT4EMPERATURE
6ERTICALMOUNT6/546AIRFLOWDIRECTIONISLONGITUDINAL
,OAD#URRENT!MPS
,OAD#URRENT!MPS
,3.4$/UTPUT#URRENTVS!MBIENT4EMPERATURE
6ERTICALMOUNT6/546TO6AIRFLOWDIRECTIONISLONGITUDINAL
.ATURAL#ONVECTION
LFM
.ATURAL#ONVECTION
LFM
n
n
12
10
.ATURAL#ONVECTION
LFM
80
85
LSN-T/10-D12J Input Current vs. Ambient Temperature
Vertical mount, V OUT = 5V, air flow direction is logitudinal
Load Current (Amps)
,OAD#URRENT!MPS
,3.4$/UTPUT#URRENTVS!MBIENT4EMPERATURE
6ERTICALMOUNT6/546AIRFLOWDIRECTIONISLONGITUDINAL
!MBIENT4EMPERATURE—#
!MBIENT4EMPERATURE—#
8
Natural Convection
6
200 lfm
4
2
n
!MBIENT4EMPERATURE—#
0
–40
25
30
35
40
45
50
55
60
65
70
75
Ambient Temperature (°C)
,3.4$/UTPUT#URRENTVS!MBIENT4EMPERATURE
6ERTICALMOUNT6/546AIRFLOWDIRECTIONISLONGITUDINAL
Note: For all derating curves, longitudinal airflow direction from pin 11 to pin 1.
,OAD#URRENT!MPS
.ATURAL#ONVECTION
LFM
n
!MBIENT4EMPERATURE—#
www.murata-ps.com
Technical enquiries email: [email protected], tel: +1 508 339 3000
LSN-T10-D12.B01 Page 9 of 12
LSN-T/10-D12
Single Adjustable Output, Non-isolated, 12Vin, 10A, SIP, DC/DC Converters
TYPICAL PERFORMANCE CURVES FOR LSN D12 SIP SERIES
0OWER/N&ROM%NABLE
6).66/546)/54!
6).66/546)/54!
6/546DIV
6/546DIV
6).6DIV
%NABLE6DIV
0OWER/N&ROM6).
MSECDIV
MSECDIV
0RE"IAS3TARTUP
6/5466).6)/54!
6/5460RE"IAS6)/54!
6/546DIV
M6DIV
6).6DIV
0OWER/N&ROM6).7ITHX§&0OSCAP,OADING
MSECDIV
MSECDIV
/UTPUT2IPPLE.OISE
6).66/546)/54!#/54§&4ANTALUM\\§&CERAMIC
6).66/546)/54!#/54§&4ANTALUM\\§&CERAMIC
M6DIV
M6DIV
/UTPUT2IPPLE.OISE
§SECDIV
§SECDIV
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Technical enquiries email: [email protected], tel: +1 508 339 3000
LSN-T10-D12.B01 Page 10 of 12
LSN-T/10-D12
Single Adjustable Output, Non-isolated, 12Vin, 10A, SIP, DC/DC Converters
TYPICAL PERFORMANCE CURVES FOR LSN D12 SIP SERIES
$YNAMIC,OAD2ESPONSE
,OAD3TEP6).66/546
,OAD3TEP6).66/546
)/54!DIV
)/54!DIV
6/54M6DIV
6/54M6DIV
$YNAMIC,OAD2ESPONSE
§SECDIV
§SECDIV
$YNAMIC,OAD2ESPONSE
$YNAMIC,OAD2ESPONSE
§&POLYMER
,OAD3TEP6).66/546#/54
§&POLYMER
)/54!DIV
)/54!DIV
6/54M6DIV
6/54M6DIV
,OAD3TEP6).66/546#/54
§SECDIV
§SECDIV
3HORT#IRCUIT#URRENT
)/54!DIV
6).66/546
MSECDIV
www.murata-ps.com
Technical enquiries email: [email protected], tel: +1 508 339 3000
LSN-T10-D12.B01 Page 11 of 12
LSN-T/10-D12
Single Adjustable Output, Non-isolated, 12Vin, 10A, SIP, DC/DC Converters
USA:
Mansfield (MA), Tel: (508) 339-3000, email: [email protected]
Canada: Toronto, Tel: (866) 740-1232, email: [email protected]
Murata Power Solutions, Inc.
11 Cabot Boulevard, Mansfield, MA 02048-1151 U.S.A.
Tel: (508) 339-3000 (800) 233-2765 Fax: (508) 339-6356
UK:
Milton Keynes, Tel: +44 (0)1908 615232, email: [email protected]
France:
Montigny Le Bretonneux, Tel: +33 (0)1 34 60 01 01, email: [email protected]
Germany: München, Tel: +49 (0)89-544334-0, email: [email protected]
www.murata-ps.com email: [email protected] ISO 9001 REGISTERED
Murata Power Solutions, Inc. makes no representation that the use of its products in the circuits described herein, or the use of other
technical information contained herein, will not infringe upon existing or future patent rights. The descriptions contained herein do not imply
the granting of licenses to make, use, or sell equipment constructed in accordance therewith. Specifications are subject to change without
notice.
© 2008 Murata Power Solutions, Inc.
Japan:
Tokyo, Tel: 3-3779-1031, email: [email protected]
Osaka, Tel: 6-6354-2025, email: [email protected]
Website: www.murata-ps.jp
China:
Shanghai, Tel: +86 215 027 3678, email: [email protected]
Guangzhou, Tel: +86 208 221 8066, email: [email protected]
04/11/08
www.murata-ps.com
Technical enquiries email: [email protected], tel: +1 508 339 3000
LSN-T10-D12.B01 Page 12 of 12