MURATA UEP-5-3500-D12

Single Output UEP Models
Ultra-High Density, 2" x 1", 1.2-6 Amp,15-30 Watt DC/DC’s
FEATURES
PRODUCT OVERVIEW
n
Choice of 3 input ranges:
10-18V, 18-36V, 36-75V
n
Models Include
3.3V @ 4.5A or 6A
5V @ 3.5A or 6A
15V @ 1.2A
12V @ 1.4A
n
Guaranteed efficiencies to 89%
n
15-30 Watts in 1" x 2" package
n
340kHz synchronous-rectifier topologies
n
–40 to +60/70°C ambient w/o derating
n
Fully isolated (1500Vdc); I/O protected
n
Trim and On/Off Control
n
UL1950/EN60950 certified
n
CE mark (75VIN models)
The UEP Series DC/DC Converters deliver
the most power/current (up to 30W/6Amps)
from a 1" x 2" package. And because of their
footprint compatibility, they can be used as
drop in replacements for their bigger brothers,
the standard 2" x 2" and 1.6" x 2" devices,
commonly used in the industry.
By combining a high-frequency (340kHz),
high-efficiency (to 89%), synchronous-rectifier
topology with the newest components and
time-tested, fully automated, SMT-on-pcb
construction, these UEP Models are able
to bring you 15-30W in the standard 2" x 1"
package from which most competitors can
only get 5-10W. All UEP’s deliver their full
output power over ambient temperature
ranges from –40°C to as high as +70°C
(model and input voltage dependent) without
heat sinks or supplemental forced-air cooling.
Devices derate to +100°C.
Output voltages are 3.3, 5, 12 or 15 Volts.
Input voltage ranges are 10-18V (“D12”
models), 18-36V (“D24” models) or 36-75V
(“D48”) models. All models feature input pi
filters, input undervoltage and overvoltage
lockout, input reverse-polarity protection,
output overvoltage protection, output current
limiting, and continuous short-circuit protection.
Standard features also include on/off control
and output-trim. All models are certified to
IEC950, UL1950 and EN60950 safety requirements for OPERATIONAL insulation. “D48”
models (36‑75V inputs) are CE marked.
UEP Series DC/DC’s are packaged
in low-cost, light-weight, diallyl phthalate
(UL94V-0 rated) plastic packages with standoffs. EMC compliance is achieved via a lownoise design rather than through expensive
metal shielding.
For full details go to
www.murata-ps.com/rohs
+INPUT
(1)
+OUTPUT
(4)
SWITCH
CONTROL
➀
–OUTPUT
(5)
➀
–INPUT
(2)
PWM
CONTROLLER
OPTO
ISOLATION
UVLO & OVLO
COMPARATORS
ON/OFF
CONTROL
(3)
REFERENCE &
ERROR AMP
TRIM
(6)
➀ 3.3V and 5V-output models use the synchronous-rectifier configuration shown above.
12V and 15V-output models employ a standard, diode-rectification architecture.
Figure 1. Simplified Schematic
Typical topology is shown.
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Technical enquiries email: [email protected], tel: +1 508 339 3000
MDC_UEP Models.A02 Page 1 of 11
Single Output UEP Models
Ultra-High Density, 2" x 1", 1.2-6 Amp,15-30 Watt DC/DC’s
Performance Specifications and Ordering Guide ➀
Output
Input
Load ➂
Vin Nom.
(Volts)
Range
(Volts)
Vout
(mA)
Min.
Typ.
Package
(Case,
Pinout)
±0.5%
12
10-18
80/1490
83.5%
84.5%
C15, P21
±0.2%
±0.5%
24
18-36
50/730
85.5%
87.5%
C15, P21
100
±0.2%
±0.5%
48
36-75
35/360
85.5%
87.5%
C15, P21
100
±0.2%
±0.3%
48
36-75
40/470
86%
88%
C15, P21
85
100
±0.2%
±0.5%
12
10-18
120/1760
84%
86%
C15, P21
3500
85
100
±0.2%
±0.5%
24
18-36
65/850
86%
88%
C15, P21
5
3500
85
100
±0.2%
±0.5%
48
36-75
40/430
86%
88%
C15, P21
5
6000
85
100
±0.2%
±0.3%
48
36-75
35/710
88%
91%
C15, P21
UEP-12/1400-D12
12
1400
85
100
±0.2%
±0.5%
12
10-18
60/1650
82.5%
85%
C15, P21
UEP-12/1400-D24
12
1400
85
100
±0.2%
±0.5%
24
18-36
45/800
85%
87%
C15, P21
UEP-12/1400-D48
12
1400
85
100
±0.2%
±0.5%
48
36-75
20/400
85%
87%
C15, P21
UEP-15/1200-D12
15
1200
85
100
±0.2%
±0.5%
12
10-18
60/1760
82.5%
85%
C15, P21
UEP-15/1200-D24
15
1200
85
100
±0.2%
±0.5%
24
18-36
45/860
85%
87%
C15, P21
R/N (mVp-p)
Regulation (Max.)
Model
Vout
(Volts)
Iout
(mA)
Typ.
Max.
Line
UEP-3.3/4500-D12
3.3
4500
85
100
±0.2%
UEP-3.3/4500-D24
3.3
4500
85
100
UEP-3.3/4500-D48
3.3
4500
85
UEP-3.3/6000-D48
3.3
6000
85
UEP-5/3500-D12
5
3500
UEP-5/3500-D24
5
UEP-5/3500-D48
UEP-5/6000-D48
➀ Typical at TA = +25°C under nominal line voltage and full-load conditions, unless otherwise noted.
➁ Ripple/Noise (R/N) is tested/specifed over a 20MHz bandwidth. All models are specified with no
external input/output capacitors.
PART NUMBER STRUCTURE
➂ Load regulation is specified over no load to 100% load conditions for 3.3 and 5Vout models, 25mA to
100% load conditions for 12 and 15 Vout models.
➃ Nominal line voltage, no-load/full-load conditions.
MECHANICAL SPECIFICATIONS
2.00
(50.80)
U EP - 3.3 / 4500 - D48 N - C
Nominal Output Voltage:
3.3, 5, 12 or 15 Volts
PLASTIC CASE
ROHS-6
Hazardous
Substance
Compliance
Output Configuration:
U = Unipolar
External Pinout
0.49
(12.45)
Case C15
STANDOFF
0.020 (0.51)
0.040 ±0.001 DIA.
(1.016 ±0.025)
0.20 MIN
(5.08)
N Suffix
Available for 12Vout
and 15Vout Models
1.800
(45.72)
0.10
(2.54)
1
4
2
Input Voltage Range:
D12 = 10-18 Volts (12V nominal)
D24 = 18-36 Volts (24V nominal)
D48 = 36-75 Volts (48V nominal)
Maximum Output Current
in mA
Optional Functions
UEP converters are designed such that the 12 and 15Vout models can be
configured for either positive logic on/off control (no suffix) or negative logic
(“N” suffix). 3.3 and 5Vout models are available with positive logic only (no suffix).
No Suffix On/Off Control function (positive polarity) on pin 3
N
Efficiency
On/Off Control function (negative polarity) on pin 3.
(12V and 15V models only.)
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1.00
(25.40)
0.400
(10.16)
5
0.600
(15.24)
3
6
0.400
(10.16)
0.800
(20.32)
BOTTOM VIEW
0.100
(2.54)
0.10
(2.54)
DIMENSIONS ARE IN INCHES (MM)
I/O Connections
Pin
Function P21
1
+Input
2
–Input
3
On/Off Control
4
+Output
5
–Output
6
Trim
Technical enquiries email: [email protected], tel: +1 508 339 3000
MDC_UEP Models.A02 Page 2 of 11
Single Output UEP Models
Ultra-High Density, 2" x 1", 1.2-6 Amp,15-30 Watt DC/DC’s
Performance/Functional Specifications
Typical @ TA = +25°C under nominal line voltage and full-load conditions, unless noted. ➀➁
Input
Input Voltage Range:
D12 Models
D24 Models
D48 Models
Dynamic Characteristics (continued)
10-18 Volts (12V nominal)
18-36 Volts (24V nominal)
36-75 Volts (48V nominal)
Overvoltage Shutdown:
D12 Models
D24 Models
D48 Models ➆
18.5-21 Volts (20V typical)
37-40 Volts (38V typical)
77-81 Volts (78.5V typical)
Start-Up Threshold: ➂
D12 Models
D24 Models
D48 Models
9.3-9.8 Volts (9.6V typical)
16.5-18 Volts (17V typical)
34-36 Volts (35V typical)
Undervoltage Shutdown: ➂
D12 Models
D24 Models
D48 Models
7-8.5 Volts (8V typical)
15.5-17.5 Volts (16.5V typical)
32.5-35.5 Volts (34.5V typical)
Input Current:
Normal Operating Conditions
Standby Mode (Off, OV, UV)
See Ordering Guide
5mA
Input Filter Type
Pi
Reverse-Polarity Protection
Brief duration, 10A maximum
On/Off Control (Optional, Pin 3): ➃
D12, D24, & D48 Models
D12N, D24N, & D48N Models
On = open or 13V - +VIN, IIN = 50µA max.
Off = 0-0.8V, IIN = 1mA max.
On = 0-0.5V, IIN = 50µA max.
Off = open or 2.4-10V, IIN = 3.7mA max.
Output
VOUT Accuracy (50% load):
±1.5%, maximum
Minimum Loading: ➁
3.3V/5V Outputs
12V/15V Outputs
No load
25mA
Ripple/Noise (20MHz BW) ➀ ➄
See Ordering Guide
Switching Frequency
6A Models
1.2A-4.5A Models
400kHz (±20kHz)
340kHz (±40kHz)
Environmental
Operating Temperature (Ambient):
Without Derating ➅
With Derating
–40 to +60/70°C to +100°C (See Derating Curves)
Case Temperature:
Maximum Allowable
+100°C
Storage Temperature
–40 to +105°C
Physical Dimensions
2" x 1" x 0.51" (51 x 25 x 12.95mm)
Shielding
None
Case Material
Diallyl phthalate, (UL94V-0 rated)
Pin Material
Gold-plated copper alloy with nickel underplate
Weight
1.4 ounces (39.7 grams)
➀ All models are specified with no external input/output capacitors.
➁ See Minimum Output Loading Requirements under Technical Notes.
➂ See Technical Notes for details.
➃ The On/Off Control is designed to be driven with open-collector logic or the application of appropriate voltages (referenced to –Input (Pin 2)). Applying a voltage to the On/Off Control pin when
no input voltage is applied to the converter may cause permanent damage. See Technical Notes.
➄ Output noise may be further reduced with the addition of external output capacitors. See Technical
Notes.
➅ Operating temperature range without derating is model and input-voltage dependent. See
Temperature Derating.
➆ UEP-3.3/600-D48 and UEP-5/6000-D48 do not have overvoltage shutdown. See Absolute
Maximum Ratings for allowable input voltages.
Absolute Maximum Ratings
Input Voltage:
Continuous:
D12 Models
D24 Models
D48 Models
Line/Load Regulation
See Ordering Guide
Efficiency
See Ordering Guide
Isolation Voltage:
Input-to-Output
1500Vdc minimum
Isolation Capacitance
470pF
Isolation Resistance
100MW
Current Limit Inception: ➂
6A Models
4.5A Models
3.5A Models
1.4A Models
1.2A Models
7-8 Amps
5.5-7 Amps (6.25 Amps typ.)
5.5-6 Amps (5.25 Amps typ.)
1.9-2.7 Amps (2.3 Amps typ.)
1.5-2.1 Amps (1.8 Amps typ.)
Input Reverse-Polarity Protection
Short Circuit: ➂
Average Current
Hiccup, indefinite
3 Amps maximum
Output Current
Hiccup. Devices can withstand sustained
output short circuits without damage.
VOUT Trim Range ➂
±5%
Overvoltage Protection ➂
Zener/transorb clamp, magnetic feedback
Case Temperature
+100°C
Temperature Coefficient
±0.02% per °C.Dynamic Characteristics
Storage Temperature
–40 to +105°C
Lead Temperature (soldering, 10 sec.)
+300°C
Dynamic Characteristics
Transient Response (50-100% load)
300µsec max. to ±1.5% of final value
Start-Up Time: ➂
VIN to VOUT
On/Off to VOUT
50msec
30msec
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22 Volts
44 Volts
88 Volts
Transient (100msec):
D12 Models
D24 Models
D48 Models
Output Overvoltage Protection:
3.3V Outputs
5V/12V/15V Outputs
22 Volts
44 Volts
88 Volts
Current must be <10 Amps. Brief duration
only. Fusing recommended.
4.5 Volts, unlimited duration
6.8/15/18 Volts, unlimited duration
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.
Technical enquiries email: [email protected], tel: +1 508 339 3000
MDC_UEP Models.A02 Page 3 of 11
Single Output UEP Models
Ultra-High Density, 2" x 1", 1.2-6 Amp,15-30 Watt DC/DC’s
TECHNICAL NOTES
1
Floating Outputs
Since these are isolated DC/DC converters, their outputs are “floating.” Designers will usually use the –Output (pin 5) as the ground/return of the load circuit.
You can, however, use the +Output (pin 4) as ground/return to effectively
reverse the output polarity.
2
3
Minimum Output Loading Requirements
3.3 and 5V models employ a synchronous-rectifier design topology. All models
regulate within spec and are stable under no-load conditions. 12/15V models
employ a traditional forward, diode-rectification architecture and require 25mA
loading to achieve their listed regulation specs. Operation under 25mA load
conditions will not damage the 12/15V devices; however they may not meet all
listed specifications.
Filtering and Noise Reduction
All UEP Series DC/DC Converters achieve their rated ripple and noise specifications with no external input/output capacitors. In critical applications,
input/output noise may be further reduced by installing external I/O caps.
Input capacitors should be selected for bulk capacitance, low ESR and high
rms-ripple-current ratings. Output capacitors should be selected for low ESR
and appropriate frequency response. All caps should have appropriate voltage
ratings and be mounted as close to the converters as possible.
VIN Range
Fuse Value
D12 Models
D24 Models
D48 Models (1.2-4.5A)
D48 Models (6A)
3 Amps
2 Amps
1 Amp
2 Amp
Trimming Output Voltages
These converters have a trim capability (pin 6) that allows users to adjust the
output voltage ±5%. Adjustments to the output voltage can be accomplished
via a trim pot, Figure 2, or a single fixed resistor as shown in Figures 3 and 4.
A single fixed resistor can increase or decrease the output voltage depending on its connection. Fixed resistors should have an absolute TCR less than
100ppm/°C to minimize sensitivity to changes in temperature.
A single resistor connected from the Trim (pin 6) to the +Output (pin 4), see
Figure 3, will decrease the output voltage. A resistor connected from the Trim
(pin 6) to –Output (pin 5) will increase the output voltage.
Trim adjustment greater than 5% can have an adverse effect on the converter's
performance and is not recommended.
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–INPUT
ON/OFF
CONTROL
+OUTPUT
TRIM
–OUTPUT
4
6
20kΩ
5-22
Turns
LOAD
5
Figure 2. Trim Connections Using A Trim Pot
1
+INPUT
+OUTPUT
4
RTRIM DOWN
2
3
–INPUT
ON/OFF
CONTROL
TRIM
–OUTPUT
6
LOAD
5
Figure 3. Trim Connections To Decrease Output Voltage Using Fixed Resistors
1
The most effective combination of external I/O capacitors will be a function
of 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
Certain applications and/or safety agencies may require the installation of
fuses at the inputs of power conversion components. Fuses should also be
used if the possibility of sustained, non-current-limited, input-voltage polarity
reversals exists. For DATEL UEP Series DC/DC Converters, you should use
slow-blow type fuses with values no greater than the following.
+INPUT
2
3
+INPUT
–INPUT
ON/OFF
CONTROL
+OUTPUT
TRIM
4
6
LOAD
RTRIM UP
–OUTPUT
5
Figure 4. Trim Connections To Increase Output Voltage Using Fixed Resistors
Model
UEP-3.3/4500-D12
UEP-3.3/4500-D24
UEP-3.3/4500-D48
UEP-3.3/6000-D48
UEP-5/3500-D12
UEP-5/3500-D24
UEP-5/3500-D48
UEP-5/6000-D48
Trim Equation
RTDOWN (kΩ) =
RTUP (kΩ) =
RTDOWN (kΩ) =
RTUP (kΩ) =
UEP-12/1400-D12
UEP-12/1400-D24
UEP-12/1400-D48
RTDOWN (kΩ) =
UEP-15/1200-D12
UEP-15/1200-D24
UEP-15/1200-D48
RTDOWN (kΩ) =
RT UP (kΩ) =
RTUP (kΩ) =
2.49(VO – 1.27)
3.3 – VO
3.16
VO – 3.3
–16.9
–16.9
2.49(VO – 2.527)
–15
5 – VO
6.292
VO – 5
–15
6.34(VO – 5.714)
–49.9
12 – VO
36.23
VO – 12
–49.9
7.87(VO – 7.136)
–63.4
15 – VO
56.16
VO – 15
–63.4
Accuracy of adjustment is subject to tolerances of resistor values and factoryadjusted output accuracy. Vo = desired output voltage.
Technical enquiries email: [email protected], tel: +1 508 339 3000
MDC_UEP Models.A02 Page 4 of 11
Single Output UEP Models
Ultra-High Density, 2" x 1", 1.2-6 Amp,15-30 Watt DC/DC’s
Input Overvoltage/Undervoltage Shutdown and Start-Up Threshold
Under normal start-up conditions, devices will not begin to regulate until the
ramping-up input voltage exceeds the Start-Up Threshold Voltage (35V for
"D48" models). Once operating, devices will not turn off until the input voltage
drops below the Undervoltage Shutdown limit (34V for "D48" models). Subsequent re-start will not occur until the input is brought back up to the Start-Up
Threshold. This built in hysteresis prevents any unstable on/off situations from
occurring at a single input voltage.
Input voltages exceeding the input overvoltage shutdown specification listed in
the Performance/Functional Specifications will cause the device to shutdown. A
built-in hysteresis of 0.6 to 1.6 Volts for all models will not allow the converter
to restart until the input voltage is sufficiently reduced.
The two 6 Amp models do not feature overvoltage shutdown and withstand
surges to 100V without shutting down. For custom overvoltage protection,
contact DATEL.
Input Reverse-Polarity Protection
If the input-voltage polarity is accidentally reversed, an internal diode will
become forward biased and likely draw excessive current from the power
source. If the source is not current limited (<10A) nor the circuit appropriately
fused, it could cause permanent damage to the converter.
On/Off Control
The input-side, remote On/Off Control function (pin 3) can be ordered to operate with either polarity (negative polarity available for 12 and 15 Volt models
only). Positive-polarity devices (standard, no part-number suffix) are enabled
when pin 3 is left open or is pulled high (+13V to VIN applied with respect to
–Input, pin 2, (see Figure 2). Positive-polarity devices are disabled when pin 3
is pulled low (0-0.8V with respect to –Input). Negative-polarity devices are off
when pin 3 is open or pulled high (+2.4V to +10V), and on when pin 3 is pulled
low (0-0.5V). See Figure 3.
1
+INPUT
200k
13V CIRCUIT
3
ON/OFF
CONTROL
2
5V CIRCUIT
–INPUT
Figure 2. Driving the Positive Polarity On/Off Control Pin
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1
+INPUT
3
ON/OFF
CONTROL
2
–INPUT
Figure 3. Driving the Negative Polarity On/Off Control Pin
Dynamic control of the remote on/off function is best accomplished with a
mechanical relay or an open-collector/open-drain drive circuit (optically isolated if appropriate). The drive circuit should be able to sink appropriate current
(see Performance Specs) when activated and withstand appropriate voltage
when deactivated.
Applying an external voltage to pin 3 when no input power is applied to the
converter can cause permanent damage to the converter.
Start-Up Time
The VIN to VOUT start-up time is the interval of time where the input voltage
crosses the turn-on threshold point, 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/output capacitance, and load.
The UEP Series implements a soft start circuit that limits the duty cycle of the
PWM controller at power up, thereby limiting the Input Inrush current.
The On/Off Control to VOUT start-up time assumes the converter has its nominal
input voltage applied but is turned off via the On/Off Control pin. 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. Similar to the VIN to VOUT start-up, the On/Off Control to VOUT
start-up time is also governed by the internal soft start circuitry and external
load capacitance.
Current Limiting
When output increases to 120% to 190% of the rated output current, the DC/DC
converter will go into a current limiting mode. In this condition the output
voltage will decrease proportionately with increases in output current, thereby
maintaining a somewhat constant power dissipation. This is commonly
referred to as power limiting. Current limit inception is defined as the point
where the full-power output voltage falls below the specified tolerance. See
Performance/Functional Specifications. If the load current being drawn from
the converter is significant enough, the unit will go into a short circuit condition. See “Short Circuit Condition.”
Technical enquiries email: [email protected], tel: +1 508 339 3000
MDC_UEP Models.A02 Page 5 of 11
Single Output UEP Models
Ultra-High Density, 2" x 1", 1.2-6 Amp,15-30 Watt DC/DC’s
Short Circuit Condition
When a converter is in current limit mode the output voltages will drop as the
output current demand increases. If the output voltage drops too low, the
magnetically coupled primary side voltages will also drop, thereby shutting
down the PWM controller.
Thermal Shutdown
These UEP converters are equipped with Thermal Shutdown Circuitry. If environmental conditions cause the internal temperature of the DC/DC converter
rises above the designed operating temperature (typically 118°C case), a
precision temperature sensor will power down the unit. When the internal
temperature decreases below the threshold of the temperature sensor the unit
will self start.
Temperature Derating Curves for UEP-3.3/4500 Output Models
17.5
VIN = 18V-27V (D24)
VIN = 36V-48V (D48)
15
12.5
Output Power (Watts)
Following a time-out period, the PWM will restart, causing the output voltage to
begin ramping to its appropriate value. If the short-circuit condition persists,
another shutdown cycle will be initiated. This on/off cycling is referred to
as "hiccup" mode. The hiccup cycling reduces the average output current,
thereby preventing internal temperatures from rising to excessive levels. The
UEP is capable of enduring an indefinite short circuit output condition.
Typical Performance Curves
10
VIN = 18V-30V (D24)
VIN = 36V-60V (D48)
7.5
VIN = 12V (D12)
VIN = 18V-36V (D24)
5
VIN = 36V-75V (D48)
2.5
0
Output Overvoltage Protection
Output voltages are monitored for an overvoltage condition via magnetic
coupling to the primary side. If the output voltage should rise to a level which
could be damaging to the load circuitry, the sensing circuitry will power down
the PWM controller causing the output voltages to decrease. Following a
time-out period the PWM will restart, causing the output voltages to ramp to
their appropriate values. If the fault condition persists, and the output voltage
again climbs to excessive levels, the overvoltage circuitry will initiate another
shutdown cycle. This on/off cycling is referred to as “hiccup” mode.
–40
0
40
45
50
55
60
65
70
75
80
85
90
95
100
Ambient Temperature (°C)
5%0$%FFICIENCYVS,INE6OLTAGEAND,OAD#URRENT
%FFICIENCY
6).6
6).6
6).6
,OAD#URRENT!MPS
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Technical enquiries email: [email protected], tel: +1 508 339 3000
MDC_UEP Models.A02 Page 6 of 11
Single Output UEP Models
Ultra-High Density, 2" x 1", 1.2-6 Amp,15-30 Watt DC/DC’s
Typical Performance Curves
Temperature Derating Curves for UEP-3.3/6000-D48
UEP-3.3/4500-D48 Efficiency vs. Line Voltage and Load Current
90
21
85
VIN = 36V
18
80
12
Efficiency (%)
Output Power (Watts)
15
VIN = 75V
9
VIN = 48V
75
VIN = 36V
70
65
VIN = 48V
60
6
55
3
0
VIN = 75V
50
45
–40
0
40
45
50
55
60
65
70
75
80
85
90
95
100
0.4
0.91
1.43
90
85
80
Efficiency (%)
%FFICIENCY
6).6
6).6
2.96
3.48
3.99
4.5
75
70
VIN = 36V
65
VIN = 48V
60
55
6).6
2.45
UEP-3.3/6000-D48 Efficiency vs. Line Voltage and Load Current
5%0$%FFICIENCYVS,INE6OLTAGEAND,OAD#URRENT
1.94
Load Current (Amps)
Ambient Temperature (˚C)
45
VIN = 75V
50
1
2
3
4
5
6
Load Current (Amps)
,OAD#URRENT!MPS
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7
Technical enquiries email: [email protected], tel: +1 508 339 3000
MDC_UEP Models.A02 Page 7 of 11
Single Output UEP Models
Ultra-High Density, 2" x 1", 1.2-6 Amp,15-30 Watt DC/DC’s
Typical Performance Curves
Temperature Derating Curves for UEP-5/6000-D48
Temperature Derating Curves for UEP-5/3500 Output Models
32
20
VIN = 18V-27V (D24)
17.5
28
VIN = 36V-48V (D48)
24
Output Power (Watts)
15
Output Power (Watts)
VIN = 36V-48V
12.5
VIN = 18V-30V (D24)
10
VIN = 36V-60V (D48)
7.5
VIN = 12V (D12)
VIN = 18V-36V (D24)
5
20
16
12
VIN = 75V
8
VIN = 36V-75V (D48)
4
2.5
0
0
–40
0
40
45
50
55
60
65
70
75
80
85
90
95
–40
100
0
40
45
50
6).6
6).6
70
75
80
85
90
95
100
6).6
6).6
6).6
65
60
5%0$%FFICIENCYVS,INE6OLTAGEAND,OAD#URRENT
%FFICIENCY
%FFICIENCY
5%0$%FFICIENCYVS,INE6OLTAGEAND,OAD#URRENT
55
Ambient Temperature (˚C)
Ambient Temperature (°C)
6).6
,OAD#URRENT!MPS
,OAD#URRENT!MPS
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8
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MDC_UEP Models.A02 Page 8 of 11
Single Output UEP Models
Ultra-High Density, 2" x 1", 1.2-6 Amp,15-30 Watt DC/DC’s
Typical Performance Curves
Temperature Derating Curves for 12V Output Models
UEP-5/3500-D48 Efficiency vs. Line Voltage and Load Current
90
18
85
16
VIN = 18V-27V (D24)
80
14
70
Output Power (Watts)
75
Efficiency (%)
VIN = 36V-48V (D48)
VIN = 36V
65
VIN = 48V
60
55
VIN = 18V-30V (D24)
10
VIN = 36V-60V (D48)
8
VIN = 12V (D12)
6
VIN = 18V-36V (D24)
VIN = 36V-75V (D48)
VIN = 75V
50
12
4
45
2
40
0.3
0.7
1.1
1.5
1.9
2.3
2.7
3.1
0
3.5
–40
0
40
45
50
Load Current (Amps)
90
85
65
70
75
80
85
90
95
100
80
%FFICIENCY
Efficiency (%)
60
5%0$%FFICIENCYVS,INE6OLTAGEAND,OAD#URRENT
UEP-5/6000-D48 Efficiency vs. Line Voltage and Load Current
95
VIN = 36V
75
70
VIN = 48V
6).6
6).6
65
VIN = 75V
60
55
55
Ambient Temperature (˚C)
1
2
3
4
5
6
Load Current (Amps)
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6).6
,OAD#URRENT!MPS
Technical enquiries email: [email protected], tel: +1 508 339 3000
MDC_UEP Models.A02 Page 9 of 11
Single Output UEP Models
Ultra-High Density, 2" x 1", 1.2-6 Amp,15-30 Watt DC/DC’s
Typical Performance Curves
5%0$%FFICIENCYVS,INE6OLTAGEAND,OAD#URRENT
%FFICIENCY
%FFICIENCY
5%0$%FFICIENCYVS,INE6OLTAGEAND,OAD#URRENT
6).6
6).6
6).6
6).6
6).6
6).6
,OAD#URRENT!MPS
,OAD#URRENT!MPS
5%0$%FFICIENCYVS,INE6OLTAGEAND,OAD#URRENT
UEP-12/1400-D48 Efficiency vs. Line Voltage and Load Current
90
85
75
70
%FFICIENCY
Efficiency (%)
80
VIN = 36V
65
VIN = 48V
60
6).6
6).6
55
VIN = 75V
50
45
0.10
0.26
0.43
0.59
0.75
0.91
1.06
1.24
6).6
1.40
Temperature Derating Curves for 15V Output Models
UEP-15/1200-D48 Efficiency vs. Line Voltage and Load Current
20
90
18
VIN = 18V-27V (D24)
85
VIN = 36V-48V (D48)
16
80
Efficiency (%)
14
Output Power (Watts)
,OAD#URRENT!MPS
Load Current (Amps)
VIN = 18V-30V (D24)
12
VIN = 36V-60V (D48)
10
8
VIN = 12V (D12)
6
VIN = 18V-36V (D24)
75
VIN = 36V
70
65
VIN = 48V
60
VIN = 36V-75V (D48)
4
0
VIN = 75V
55
2
–40
0
40
45
50
55
60
65
70
75
80
85
90
95
100
Ambient Temperature (˚C)
www.murata-ps.com
50
0.10
0.24
0.38
0.51
0.65
0.79
0.93
1.06
1.2
Load Current (Amps)
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MDC_UEP Models.A02 Page 10 of 11
1 5 - 3 0 W, S I N G L E O U T P U T D C / D C C O N V E RT E R S
Single Output UEP Models
Ultra-High Density, 2" x 1", 1.2-6 Amp,15-30 Watt DC/DC’s
Typical Performance Curves
Output Ripple and Noise (PARD)
Output Ripple and Noise (PARD)
(VIN = nominal, 3.3V @ 4.5A, no external capacitors.)
(VIN = nominal, 12V @ 1.4A, no external capacitors.)
20mV/div, 20MHz BW
20mV/div, 20MHz BW
Output Ripple and Noise (PARD)
Output Ripple and Noise (PARD)
(VIN = nominal, 5V @ 3.5A, no external capacitors.)
(VIN = nominal, 15V @ 1.2A, no external capacitors.)
20mV/div, 20MHz BW
20mV/div, 20MHz BW
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Tel: (508) 339-3000 (800) 233-2765 Fax: (508) 339-6356
www.murata-ps.com
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email: [email protected]
DS-0502B
2/14/08
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© 2008 Murata Power Solutions, Inc.
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.
www.murata-ps.com
Technical enquiries email: [email protected], tel: +1 508 339 3000
MDC_UEP Models.A02 Page 11 of 11