Typical topology is shown. Some models may vary slightly.
* Can be ordered with positive (standard) or negative (optional) polarity.
For full details go to
www.murata-ps.com/rohs
Figure 1. Simplified Schematic
www.murata-ps.com/support
MDC_HPH-12/30-D48.B01 Page 1 of 13
HPH-12/30-D48 Series
Isolated, 12 V
OUT
, 30A, Half-Brick DC/DC Converters
PERFORMANCE SPECIFICATIONS SUMMARY AND ORDERING GUIDE
Output
V
OUT
(Volts)
➁
12
Input
Regulation (Max.)
Line
±0.05%
Root Model
HPH-12/30-D48
I
OUT
(Amps,
Max.)
➁
30
Power
(Watts)
360
R/N (mV pk-pk)
Typ.
100
Max.
200
Load
±0.1%
V
IN
Nom.
(Volts)
48
Range
(Volts)
36-75
I
IN
, no
load
(mA)
150
I
IN
, full
load
(Amps)
8.1
Efficiency
Min.
92%
Typ.
93%
Package
(Case/
Pinout)
C61
P17
Please refer to the full model number structure for additional ordering part numbers and options.
Please refer to maximum input/output voltage graph.
All specifications are at nominal line voltage and full load, +25ºC. unless otherwise noted. See detailed specifications.
Full power continuous output requires baseplate installation. Please refer to the derating curves.
*
LAST TIME BUY: AUGUST 31, 2014. CLICK HERE FOR OBSOLESCENCE NOTICE OF FEBRUARY 2014.
PART NUMBER STRUCTURE
As of September 2014, ONLY the following part numbers will be available: HPH-12/30-D48N-C; HPH-12/30-D48NB-C
HPH
-
12
/
30
-
D48 N B
High-Power Half
Brick Series
Nominal Output Voltage
Maximum Output Current
in Amps
H Lx
-
C
RoHS Hazardous Materials compliance
C =
RoHS-6 (no lead), standard, does not claim EU exemption 7b – lead in solder
Y =
RoHS-5 (with lead), optional, special quantity order
Pin length option
Blank
= standard pin length 0.180 in. (4.6 mm)
L1
= 0.110 in. (2.79 mm)*
L2
= 0.145 in. (3.68 mm)*
Conformal coating (optional)
Blank
= no coating, standard
H
= Coating added, optional, special quantity order
Baseplate (optional)
Blank
= No baseplate, standard
B
= Baseplate installed, optional quantity order
*Special
quantity order is
required; samples available
with standard pin length only.
Note:
Some model number combinations
may not be available. See website
or contact your local Murata sales
representative.
Input Voltage Range:
D48 = 36-75 Volts (48V nominal)
On/Off Control Polarity
N
= Negative polarity, standard
P
= Positive polarity, optional
Note: Because of the high currents, wire the appropriate input, output and common pins in parallel. Be sure to use adequate PC board etch. If not sufficient, install additional discrete wiring.
www.murata-ps.com/support
MDC_HPH-12/30-D48.B01 Page 2 of 13
HPH-12/30-D48 Series
Isolated, 12 V
OUT
, 30A, Half-Brick DC/DC Converters
FUNCTIONAL SPECIFICATIONS
ABSOLUTE MAXIMUM RATINGS
Input Voltage, Continuous
Input Voltage, Transient
Isolation Voltage
Input Reverse Polarity
On/Off Remote Control
Output Power
Output Current
Conditions
➀
Full power operation
Ambient temperature range
Operating or non-operating, tested:
100 mS max. duration
Input to output tested 100 mS
IEC/EN/UL 60950-1, 2nd Edition
None, install external fuse
Power on or off, referred to -Vin
Minimum
0
-40
0
Typical/Nominal
Maximum
75
85
100
2250
Units
Vdc
Vdc
Vdc
Vdc
Vdc
Vdc
W
None
0
0
50
450
Current-limited, no damage,
0
30
A
short-circuit protected
Storage Temperature Range
Vin = Zero (no power)
-55
125
˚C
Absolute maximums are stress ratings. Exposure of devices to greater than 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 nor recommended.
36
33
31
48
34
32
None
20
Pi
8.06
10.75
0.3
50
150
4
60
92
92
2250
TBD
1500
1500
basic
100
2,000
UL-60950-1, CSA-C22.2 No.60950-1,
IEC/EN60950-1, 2nd Edition
Per MIL-HDBK-217F
Ground benign, Tambient=+30˚C
Per Telcordia SR332, issue 1 class 3, ground
fixed, Tambient=+40˚C
350
Power On to Vout regulated 10-90%
(50% resistive load)
Remote ON to 10% Vout (50% resistive load)
50-75-50% load step, settling time to within
±1% of Vout di/dt = 1 A/μSec
same as above
Yes
TBD
1.4
400
450
20
20
200
±400
400
Hours x 10
6
Hours x 10
6
KHz
mS
mS
μSec
mV
93
93
75
35
33
Vdc
Vdc
Vdc
Vdc
A
INPUT
Operating voltage range
➁
Turn On/Start-up threshold
Turn Off/Undervoltage lockout
Reverse Polarity Protection
Recommended External Fuse
Internal Filter Type
Input current
Full Load Conditions
Low Line
Inrush Transient
Output in Short Circuit
No Load
Standby Mode (Off, UV, OT)
Reflected (back) ripple current
➂
Rising input voltage
Falling input voltage
None, install external fuse
Fast blow
Vin = nominal
Vin = minimum
8.23
10.98
100
200
5
100
Iout = minimum, unit=ON
Measured at input with specified filter
Vin=48V, full load
Vin=36V, full load
Input to output, continuous
Input to output, continuous
Input to Baseplate, continuous
Output to Baseplate, continuous
A
A
A
2
-Sec.
mA
mA
mA
mA, RMS
%
%
Vdc
Vdc
GENERAL and SAFETY
Efficiency
Isolation
Isolation Voltage: no baseplate
Isolation Voltage: with baseplate
Insulation Safety Rating
Isolation Resistance
Isolation Capacitance
Safety (Designed to meet the following
requirements)
Calculated MTBF
Mohm
pF
DYNAMIC CHARACTERISTICS
Fixed Switching Frequency
Startup Time
Startup Time
Dynamic Load Response
Dynamic Load Peak Deviation
FEATURES and OPTIONS
Remote On/Off Control
➃
“N” suffix:
Negative Logic, ON state
Negative Logic, OFF state
Control Current
“P” suffix:
Positive Logic, ON state
Positive Logic, OFF state
Control Current
Base Plate
ON = Pin grounded or external voltage
OFF = Pin open or external voltage
open collector/drain
ON = Pin open or external voltage
OFF = Pin grounded or external voltage
open collector/drain
“B” suffix
0
3.5
1
3.5
0
1
0.8
13.5
2
13.5
1
2
V
V
mA
V
V
mA
www.murata-ps.com/support
MDC_HPH-12/30-D48.B01 Page 3 of 13
HPH-12/30-D48 Series
Isolated, 12 V
OUT
, 30A, Half-Brick DC/DC Converters
FUNCTIONAL SPECIFICATIONS (CONT.)
OUTPUT
Total Output Power
Voltage
Nominal Output Voltage
Setting Accuracy
Output Voltage Range
Overvoltage Protection
Current
Output Current Range
Minimum Load
Current Limit Inception
➄
Short Circuit
Short Circuit Current
Short Circuit Duration
(remove short for recovery)
Short circuit protection method
Regulation
➅
Line Regulation
Load Regulation
Ripple and Noise
➆
Temperature Coefficient
Maximum Capacitive Loading
(10% ceramic, 90% Oscon)
See Derating
No trim
At 50% load
User-adjustable [6]
Via magnetic feedback
0.0
11.88
-1
-10
12.00
360
12.12
1
10
W
Vdc
% of Vnom.
% of Vnom.
Vdc
A
A
A
14.5
0
30
No minimum load
37
6.6
Continuous
44
98% of Vnom., after warmup
Hiccup technique, autorecovery within ±1% of
Vout, non-latching
Output shorted to ground, no damage
Current limiting
Vin=min. to max. Vout=nom., 50% load
Iout=min. to max. Vin=48V.
5 Hz- 20 MHz BW
At all outputs
Cap. ESR=<0.02Ω, Full resistive load
Cxx case
WxLxH (Please refer to outline drawing)
31.5
100
0.02
0
2.3 X 2.4 X 0.4
58.4 X 60.96 X 10.2
2.3 X 2.4 X 0.5
36.8x58.4x12.7
TBD
TBD
±0.05
±0.1
200
10,000
%
%
mV pk-pk
% of Vnom./°C
μF
Inches
mm
Inches
mm
Ounces
Grams
Ounces
Grams
Inches
mm
μ-inches
μ-inches
MECHANICAL (Through Hole Models)
Outline Dimensions (no baseplate)
Outline Dimensions (with baseplate)
Weight (no baseplate)
Weight (with baseplate)
Through Hole Pin Diameter
Through Hole Pin Material
TH Pin Plating Metal and Thickness
Case or Baseplate Material
Copper alloy
Nickel subplate
Gold overplate
Aluminum
With derating, full power, natural convection,
no baseplate
No derating, with baseplate, full power
Vin = Zero (no power)
Measured at hotspot
External filter required
To +85°C
10
-500
-152
RoHS-6 or RoHS-5
(specify)
-40
-40
-55
120
B
B
90
10,000
3048
85
120
125
˚C
˚C
˚C
˚C
Class
Class
%RH
feet
meters
ENVIRONMENTAL
Operating Ambient Temperature Range
Operating Ambient Temperature Range with
Baseplate
Storage Temperature
Thermal Protection/Shutdown
Electromagnetic Interference
Conducted, EN55022/CISPR22
Radiated, EN55022/CISPR22
Relative humidity, non-condensing
Altitude
(must derate -1%/1000 feet)
RoHS rating
Notes
➀
Unless otherwise noted, all specifications are at nominal input voltage, nominal output voltage
and full load. General conditions are +25˚ Celsius ambient temperature, near sea level altitude,
natural convection airflow. All models are tested and specified with external parallel 1 µF and 10 µF
multi-layer ceramic output capacitors. No external input capacitors are installed. All capacitors are
low-ESR types wired close to the converter. These capacitors are necessary for our test equipment
and may not be needed in the user’s application.
➁
The module will operate when input voltage is within the 36-75V Operating Voltage Range, Output
regulation at full load will be achieved only when Vin >= 39V
➂
Input (back) ripple current is tested and specified over 5 Hz to 20 MHz bandwidth. Input filtering is
Cbus = 0 µF, Cin = 100 µF and Lbus = < 4.7 µH.
➃
The Remote On/Off Control is referred to -Vin.
➄
Over-current protection is non-latching with auto reovery (Hiccup)
➅
Regulation specifications describe the output voltage changes as the line voltage or load current is
varied from its nominal or midpoint value to either extreme.
➆
Output Ripple & Noise is measured with 750 µF capacitance, 10% ceramic and 90% OSCON. 20
The TMDSDSK6713 DSP Starter Development Kit (DSK) has the following features: TMS320C6713 CPU with 225MHz operating frequency; 512K external Flash, 8MB external SDRAM; 24-bit stereo interface, includi...
Requirements: Graduated 10 years ago, no work experience limit, must have an intermediate professional title or above in electronics, communications, or computer science, can purchase social insurance...
The S3C2440 on the platform can download the NK.NB0 file compiled by WINCE5.0 normally, but after downloading the NK.BIN file, the system stops at EBOOT and cannot be loaded. If any heroes have any kn...
Dear experts, I am a beginner who just learned single-chip microcomputer. I use stc-12c5a60s2 series single-chip microcomputer. The board should be good. When burning the program, it never shows that ...
1. Several nouns
ABI:
The specifications that an executable file must follow in order to run in a specific execution environment;
Separately generated relocatabl...[Details]
From being a global leader to losing the market, Korean battery manufacturers have always wanted to regain the lost market and dignity, but facing Chinese battery manufacturers represented by CAT...[Details]
1. Project Overview
1.1 Introduction
Currently, most music files are saved in MP3 format, a lossy audio compression format that cannot perfectly reproduce the original music. With the exp...[Details]
Whether it is an electric car or an ordinary fuel car, for the vast majority of car buyers, the final cost of use is what they care about most. For fuel cars, how to save fuel is what drivers care ...[Details]
Logic analyzers are widely used tools in digital design verification and debugging. They can verify the proper functioning of digital circuits and help users identify and troubleshoot faults. They ...[Details]
According to foreign media reports, secondary battery materials company POSCO Future M announced that it has successfully developed two experimental (prototype) positive electrode materials for the...[Details]
On August 22, the National Energy Administration released the latest data, showing that by the end of July 2025, China's total number of electric vehicle charging infrastructure will reach 16.696 m...[Details]
This paper proposes a temperature real-time transmission and display solution based on LED optical data transmission, with Jingwei Yager low-power FPGA HR (Yellow River) series as the main controll...[Details]
Teletrac Navman has launched the Multi IQ dashcam, a cloud-based solution designed for large commercial vehicle operators. It connects up to five cameras to cover the vehicle's interior, sides, and...[Details]
To improve the lateral active safety of intelligent connected vehicles, the identification and definition of unexpected functional safety scenarios for the EPS (Electronic Steering System) ...[Details]
My career has been closely tied to the semiconductor industry. From product management to content marketing, I've provided countless forecasts and predictions across a variety of roles. Whethe...[Details]
From time to time, I see some audiophiles spending a lot of money or a lot of time to DIY speakers, but the results are not what they want. Below I list some of the small experiences I summarized b...[Details]
Introduction: Traditionally, lead-acid batteries have primarily been used to provide backup power and power regulation based on location. In typical applications, the battery's actual use (discharg...[Details]
A Beijing chemical project utilizes a distributed control system (DCS). The master control system primarily uses the Modbus protocol, while the remote field devices utilize the PROFIBUS-DP protocol...[Details]
Automotive electronics systems are facing a dual challenge of functional safety and cybersecurity.
The NXP
S32K3
series MCUs utilize a deep protection system built with a Hardware Sec...[Details]
Discrete Device
京公网安备 11010802033920号
EEWORLD
