HHS04Z52-T [BEL]
1-OUTPUT 200W DC-DC REG PWR SUPPLY MODULE, HALF BRICK-9;型号: | HHS04Z52-T |
厂家: | BEL FUSE INC. |
描述: | 1-OUTPUT 200W DC-DC REG PWR SUPPLY MODULE, HALF BRICK-9 输出元件 |
文件: | 总11页 (文件大小:229K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
HHS04Z52 DC-DC Converter Data Sheet
48 V Input, 52.5 V @ 3.8 A Half-Brick Converter
Features
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RoHS lead solder exemption compliant
200 Watt output power capability
Standard ½-brick footprint and pinout
Fully regulated 52.5 VDC output
Efficiency up to 92%
Input-to-output isolation: 2,250 VDC
Basic insulation
Applications
Output overcurrent protection
Output overvoltage protection
Overtemperature protection
Remote sense
Next-generation IP Telephony & Power Over LAN
(Unit is compliant to IEEE802.3af)
Distributed power architectures
Benefits
Remote on/off (primary referenced)
Safety: UL60950-3rd/ CSA C22.2 60950-00,
TUV EN60950:2001, IEC60950-1:2001
•
Simplifies power system design, reduces design
time and technical risk
•
Reduces PCB area occupied by power
conversion and power management components
Description
The HHS04Z52 is a DC-DC converter that operates over an input voltage range of 36 to 75 VDC and provides
regulated 52.5 V output rated up to 3.8 amps (200 watts) of continuous output current. The output is fully isolated
from the input, which allows a positive or negative output voltage configuration.
The standard feature set includes remote on/off, remote sensing, undervoltage lockout, overtemperature
protection, output overvoltage protection, output trim, and a dedicated pin that connects to the baseplate.
The highly efficient topology and thermally-optimized construction allow this unit to provide high output current
over a wide operating temperature range while maintaining a safe guardband of electrical and thermal component
deratings. The addition of an external heat sink further increases the capacity of the unit.
The HHS04Z52 employs 100% surface-mount components for consistency and reliability in the production
process.
Model Selection
Input
Voltage
VDC
Input
Output
Voltage
VDC
Output Rated
Current I rated
ADC
Output
Ripple/Noise,
mV p-p 2
Typical
Efficiency @
Model
Current,
Max ADC 1
I rated
%
HHS04Z52-NT
36-75
6.11
52.5
3.8
150
92
NOTES:
1
@ VIN min.
2
(DC to 500 kHz)
MAR 06, 2006 revised to APR 20, 2006
Page 1 of 11
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HHS04Z52 DC-DC Converter Data Sheet
48 V Input, 52.5 V @ 3.8 A Half-Brick Converter
1. Absolute Maximum Ratings
Stresses in excess of the absolute maximum ratings may cause performance degradation, adversely effect
long-term reliability, and cause permanent damage to the converter.
Parameter
Conditions/Description
Min
Max
Units
Input voltage
Operating Temperature
Storage Temperature
ON/OFF Control Voltage
Output Power
Continuous
Baseplate Temperature
Ambient
36
0
75
110
125
20
VDC
°C
-55
°C
Referenced to -Vin
VDC
W
260
2. Environmental and Mechanical Specifications
Parameter
Conditions/Description
Min
0
Nom
Max
Units
Operating Temperature
Baseplate
Ambient 1
110
85
°C
°C
%
0
Operating Humidity
Storage Humidity
Water Washing
Shock
Relative Humidity, Non-cond.
Relative Humidity, Non-cond.
Standard process
95
95
%
Yes
Halfsine wave, 3 axes
GR-63-CORE, Section 5.4.2
50
1
g
g
Sinusoidal Vibration
Weight
2.4 (68)
Oz(g)
Dimensions
(Overall)
2.28 L
(58.0 )
2.4 W
(61.0)
0.42 H
(10.67)
in
(mm)
MTBF (calculated)
per MIL-STD-217E, Ta = 30OC, or
Bellcore TR-NWT-000332 method 1
- ports count
2
MHrs
1
See Figure 9, Power derating curve.
3. Isolation Specifications
All specifications apply over specified input voltage, output load, and temperature range, unless otherwise noted.
Parameter
Conditions/Description
Min
Nom
Max
Units
Insulation Safety Rating
Isolation Voltage
Basic
Input to Output
Input to Baseplate
Output to Baseplate
Input to Output
2250
VDC
VDC
VDC
MΩ
nF
1500
1500
Isolation Resistance
Capacitance
10
-
Input to Output
-
-
-
5
1
Input to Baseplate
Output to Baseplate
-
nF
-
12.5
nF
MAR 06, 2006 revised to APR 20, 2006
Page 2 of 11
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HHS04Z52 DC-DC Converter Data Sheet
48 V Input, 52.5 V @ 3.8 A Half-Brick Converter
4. Safety Regulatory Compliance
Safety Agency
Standard Approved To:
UL60950-3RD / CSA60950-00
TUV EN60950:2001
Marking
cULus
Underwriters Laboratories
TUV product Service
CB report
TUV PS Baurt mark
N/A.
IEC60950-1:2001
5. Input Specifications
All specifications apply over specified input voltage, output load, and temperature range, unless otherwise noted.
Parameter
Conditions/Description
Min
Nom
Max
Units
Input Voltage
Continuous
Vin =36 V, Iou t= Irated
Ramping Up
36
48
75
6.11
38
VDC
ADC
Maximum Input Current
Turn-On Input Voltage (UVLO)
Turn-Off Input Voltage
36
37
VDC
Ramping Down
33.5
35.5
2.6 2
35.9
7.5
VDC
Input Reflected Ripple Current
Irated, 12µH source inductance
BW=20 MHz 1
mA p-p
Inrush Transient
Vin = Vin.max
2
A2s
1
2
See Figure 1 for measurement method.
Vin = 48 V
MAR 06, 2006 revised to APR 20, 2006
Page 3 of 11
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HHS04Z52 DC-DC Converter Data Sheet
48 V Input, 52.5 V @ 3.8 A Half-Brick Converter
6. Output Specifications
All specifications apply over specified input voltage, output load, and temperature range, unless otherwise noted.
Parameter
Output Voltage
Conditions/Description
Min
Nom
Max
Units
-
52.5
-
-
VDC
% Vout
mV
Set-point Accuracy:
(Vin = 48 V, Io = 3.8 A)
(Vi = 36 V to 75 V)
(Io,min to Io,max)
-1.5
+1.5-
100
Output Line Regulation:
Output Load Regulation:
100
mV
Combined Output Voltage Regulation Includes all above plus Temp.Co.
& Aging. 5
50.93
0
52.5
54.07
VDC
Output Current
Efficiency 1
Irated
3.8
ADC
%
92
89
TAMB=25 °C, VinNOM, Iout=3.8 A
TAMB=25 °C, VinNOM, Iout=0.4 A
Fixed frequency
%
Switching Frequency
Output Ripple 2, 3
300
kHz
Over line and load
(DC to 500kHz)
150
50
mVp-p
mVp-p
mVp-p
ms
Tamb= 0 °C to 85 °C
(500kHz to 1MHz)
(1MHz to 20MHz)
30
Turn-On Time
Time from Vin=UVLO to
regulation band
50
25
100
(via application of input voltage)
Rise Time
From 10 to 90% of Vout.nom
30
3
ms
Turn-on Overshoot
Overall input voltage, load, and
temperature conditions
%Vout
Dynamic Regulation 4
75-100-75% load step change,
di/dt=1A/μs
Peak Deviation
Settling Time
Admissible Load Capacitance
±0.5
200
±3
%Vout
μs
to 1% error band
500
0
1,000
μF
1 See Figure 1.
2 See Figure 4 for test setup
3 Output ripple may exceed the specification for Io < 0.2 Amps.
4 Measured @ Remote Sense pins, CLOAD = 200 μF min, Settling Time (Vo, 1% of Vo1)
5 Aging < 7 years, Tamb. = 0 °C to +70 °C
MAR 06, 2006 revised to APR 20, 2006
Page 4 of 11
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HHS04Z52 DC-DC Converter Data Sheet
48 V Input, 52.5 V @ 3.8 A Half-Brick Converter
7. Protections Specifications
All specifications apply over specified input voltage, output load, and temperature range, unless otherwise noted.
Parameter
Conditions/Description
Overcurrent Protection
Min
Nom
Max
Units
Type
Non-latching – Constant current mode, auto-recovery,
may hiccup during short circuit.
Threshold
4.8
7.5
3.8
ADC
ARMS
Short Circuit
Overvoltage Protection
Latching; recycle input voltage to unlatch
Vin = Vin.nom, Iout=Irated 58
Overtemperature Protection
Non-latching, auto-recovery
Baseplate temperature 112
Type
Threshold
65
VDC
Type
Threshold
Hysteresis
120
°C
°C
10
8. Feature Specifications
All specifications apply over specified input voltage, output load, and temperature range, unless otherwise noted.
Parameter
Conditions/Description
On/Off
Min
Nom
Max
Units
Negative Logic (-N suffix)
(On/Off signal is low – converter is ON)
-0.5
2.5
1.2
0.75
VDC
mADC
Converter ON
Sink current
On/Off (pin 3)
0.5
2.0
(Primary side ref. to -Vin)
Converter OFF
Open circuit voltage
20
VDC
VDC
Positive Logic 1
Remote Sense 2
Remote Sense Headroom
0.5
VDC
Output Voltage Trim 2
Vin = Vin.nom, Iout = Irated
Vin = Vin.nom, Iou t= Irated
Trim Up
0.5
VDC
VDC
Trim Down
-2.5
1
2
Consult factory for availability of this option.
Combined output voltage positive adjustment cannot
exceed 0.5 VDC.
MAR 06, 2006 revised to APR 20, 2006
Page 5 of 11
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HHS04Z52 DC-DC Converter Data Sheet
48 V Input, 52.5 V @ 3.8 A Half-Brick Converter
9. Performance Characteristics
9.1 Efficiency
9.3 Dynamic Load Response
HHS04Z52-NT, EFFICIENCY VS. LOAD RESPONSE
100
95
90
85
80
75
70
65
60
55
50
45
40
EFF.(38V)
20 30
EFF.(48V)
EFF.(75V)
70 80
10
40
50
60
90
100
LOAD %
Figure 3. HHS04Z52 Dynamic Regulation
Figure 1. HHS04Z52 Efficiency vs. Output Current
The load is switched from 2.85 A to 3.8 A at
di/dt=1A/μs. Cext=220 μF. (Above performance:
60mV / 180μs)
9.2 Startup Characteristics
Top waveform – output current
Bottom waveform – output voltage, 50mV/div.
Time: 200 μs/div.
Figure 2. HHS04Z52 Startup Waveform
Channel 1 – input voltage = 48 V
Channel 2 – output voltage
Time: 10 ms/div.
This waveform demonstrates typical output voltage
turn-on delay time and monotonic rise with no
overshoot.
MAR 06, 2006 revised to APR 20, 2006
Page 6 of 11
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HHS04Z52 DC-DC Converter Data Sheet
48 V Input, 52.5 V @ 3.8 A Half-Brick Converter
Once the output current is brought back into its
specified range, the converter automatically exits the
hiccup mode and continues normal operation.
9.4 Ripple and Noise
To improve accuracy and repeatability of ripple and
noise measurements, Power-One utilizes the test
setup shown in Figure 4.
9.6 Overvoltage Protection
The output overvoltage protection consists of a
separate control loop, independent of the primary
control loop. This control loop has a higher voltage
set point than the primary loop. In a fault condition
the converter limits its output voltage and latches off.
Figure 6 shows operation of the converter under an
overvoltage condition.
COPPER STRIPS (2 to 3 inches)
DUT
+Vo1
0.1uf
ceramic
10uF
Tantalum
LOAD1
SCOPE
-Vo1
Figure 4. Output Ripple & Noise Measurement Test Setup
A BNC connector is used for the measurements to
eliminate noise pickup associated with long ground
leads of conventional scope probes. The connector,
a 0.1 μF ceramic and a 10 μF tantalum capacitors,
and the load are located 2-3” away from the
converter.
9.5 Overcurrent Protection
To provide protection from an output overload or
short-circuit condition, the HHS04Z52 is equipped
with current-limiting circuitry and can endure the fault
condition for an unlimited duration. At the point of
current-limit inception, the converter goes into the
hiccup mode, causing the output current to be limited
both in peak and duration. Because of a lower duty
cycle, the RMS value of output current is also low.
Figure 6. Output Voltage of an HHS04Z52 Under a Forced
Overvoltage Condition. Vin=75V, No Load, Co=220µF
10. Feature Descriptions
10.1 ON/OFF
The ON/OFF (#5) pin in the HHS04Z52 converter is
referenced to the –Vin (#1) pin (see Figure 8).
With negative logic (which is denoted by the suffix “–
N” in the part number), when the ON/OFF pin is pulled
low, the unit is turned on.
With positive logic, when the ON/OFF pin is pulled low, the output is
turned off and the unit goes into a very low input power mode. (Not
available)
An open collector switch is recommended to control
the voltage between the ON/OFF pin and the -Vin pin
of the converter. The ON/OFF pin is pulled up
internally, so no external voltage source is required.
The user should avoid connecting a resistor between
the ON/OFF pin and the +Vin (# 4) pin.
Figure 5. HHS04Z52 Output Current With
Output Shorted and Vin=36V. Scale is 5A Per Division
When the ON/OFF pin is used to achieve remote
control, the user must take care to insure that the pin
MAR 06, 2006 revised to APR 20, 2006
Page 7 of 11
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HHS04Z52 DC-DC Converter Data Sheet
48 V Input, 52.5 V @ 3.8 A Half-Brick Converter
reference for the control is really the -Vin pin. The
control signal must not be referenced ahead of EMI
filtering, or remotely from the unit. Optically coupling
the information and locating the optical coupler
directly at the module will solve any of these
problems.
Note:
If the ON/OFF pin is not used, it can be connected to the -Vin pin
(negative logic).
10.2 Remote Sense
The HHS04Z52 converter has the capability to
remotely sense both lines of the output. This feature
moves the effective output voltage regulation point
from the output of the unit to the point of connection
of the remote sense pins. This feature automatically
adjusts the real output voltage of the converter in
order to compensate for voltage drops in distribution
and maintain a regulated voltage at the point of load.
This is shown in the Figure 7.
Figure 7. HHS04Z52 Converter Trim Schematic
The equations below determine the trim resistor value
required to achieve a ΔV change in the output
voltage.
If the remote sense feature is not to be used, the
sense pins should be connected locally. The +Sense
(# 8) pin should be connected to the +Vout (# 9) pin
directly at the output of the converter and the –Sense
(# 6) pin should be connected to the -Vout (# 5) pin
directly at the output of the converter.
Vo(100 + Δ%) (100 + 2Δ%)
⎛
⎝
⎞
⎠
Rup =
−
kΩ
⎜
⎟
1.225Δ%
Δ%
100
⎛
⎜
⎞
⎠
Rdown =
− 2) kΩ
⎟
Δ%
⎝
If sense pins are not connected to load, or the
respective output pins, the converter will not be
damaged, but may not met the output voltage
regulation specifications.
where ΔV% is the output voltage change expressed in
percent of the nominal output voltage, Vo.
Notes:
1. When the output voltage is trimmed up, the output power from
the converter must not exceed its maximum rating. The power
is determined by measuring the output voltage on the output
pins, and multiplying it by the output current.
10.3 Output Voltage Trim
The trim feature allows the user to adjust the output
voltage from its nominal value.
2. In order to avoid creating apparent load regulation
degradation, it is important that the trim resistors are
connected directly to the remote sense pins, and not to the
load or to traces going to the load.
The HHS04Z52 trims up with a resistor from the Trim
(# 7) pin to the +Sense (# 80) pin and trims down
with a resistor from the Trim pin to the –Sense (# 6)
pin as shown in the Figure 7.
3. The output voltage increase can be accomplished by either
the trim or by the remote sense or by the combination of both.
In any case the absolute maximum output voltage increase
shall not exceed the limits defined in section 6 above.
4. Either Rup or Rdown should be used to adjust the output
voltage according to the equations above. If both Rup and
Rdown are used simultaneously, they will form a resistive
divider and the equations above will not apply.
MAR 06, 2006 revised to APR 20, 2006
Page 8 of 11
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HHS04Z52 DC-DC Converter Data Sheet
48 V Input, 52.5 V @ 3.8 A Half-Brick Converter
11. Application Information
11.2 Thermal Considerations
The HHS04Z52 converters are designed for both
natural and forced convection cooling. The maximum
11.1 Typical Input and Output Connections
allowable output current of the converters is
determined by meeting the derating criteria for all
components used in the converters. For example, the
maximum semiconductor junction temperature is not
allowed to exceed 115 °C to ensure reliable long-term
operation of the converters. Contact Power-One for
the complete list of the derating criteria.
Figure 8 shows the recommended connections for
the HHS04Z52 converter.
HHS04Z52
Fuse
+Vo
+Vi
+Sense
The graph in Figure 9 shows the maximum output
current of the HHS04Z52 converter at different
ambient temperatures under both natural and forced
convection. (longitudinal airflow direction, from pin 1
to pin 4).
C1
C2 C3
Trim
On/Off
-Vi
-Sense
-Vo
4
3.5
3
Figure 8. Typical Application of the HHS04Z52
The HHS04Z52 converter does not require any
external components for proper operation. However,
if the distribution of the input voltage to the converter
contains significant inductance, the capacitor C1 may
be required to enhance performance of the
2.5
2
1.5
1
converter.
A minimum of a 68 μF electrolytic
capacitor with the ESR < 0.7 Ω is recommended.
0.5
NC (25 - 35 LFM)
40
100 LFM
200 LFM
300 LFM
70
400 LFM
Refer to the “Inrush Current Control Application Note”
on www.power-one.com for suggestions on how to
limit the magnitude of the inrush current.
0
25
55
Ambient Temperature (Deg C)
85
For output decoupling we recommend to use a 10μF
low ESR tantalum (AVX TPSC106M025R0500 is
used in Power-One test setup) and a 0.1 μF ceramic
capacitor. Note that the capacitors do not substitute
the filtering required by the load.
Figure 9. HHS04Z52 Derating Curves
For example, from Figure 9, the HHS04Z52 operating
°
at 62 C Ambient can deliver up to 3.8 A reliably with
200 LFM forced air, or with 300 LFM to 73 °C.
MAR 06, 2006 revised to APR 20, 2006
Page 9 of 11
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HHS04Z52 DC-DC Converter Data Sheet
48 V Input, 52.5 V @ 3.8 A Half-Brick Converter
11.3 Safety Considerations
In order for the output of the HHS04Z52 converter to
be considered as SELV (Safety Extra Low Voltage) or
TNV-1, according to all IEC60950 based standards,
one of the following requirements must be met in the
system design:
The HHS04Z52 converter features 2,250 VDC
isolation from the input to output. The input-to-output
resistance is greater than 10MΩ. These converters
are provided with Basic insulation between input and
output circuits according to all IEC60950 based
standards. Nevertheless, if the system using the
converter needs to receive safety agency approval,
certain rules must be followed in the design of the
system. In particular, all of the creepage and
clearance requirements of the end-use safety
requirements must be observed. These documents
include UL60950 - CSA60950-00 and EN60950,
although other or additional requirements may be
needed for specific applications.
•
•
If the voltage source feeding the module is SELV
or TNV-2, the output of the converter may be
grounded or ungrounded.
If the voltage source feeding the module is ELV,
the output of the converter may be considered
SELV only if the output is grounded per the
requirements of the standard.
•
If the voltage source feeding the module is a
Hazardous Voltage Secondary Circuit, the voltage
source feeding the module must be provided with
at least Basic insulation between the source to
the converter and any hazardous voltages. The
entire system, including the HHS04Z52 converter,
The HHS04Z52 converter has no internal fuse. An
external fuse must be provided to protect the system
from catastrophic failure, as illustrated in figure 8.
Refer to the “Input Fuse Selection for DC/DC
converters” application note on www.power-one.com
for proper selection of the input fuse. Both input
traces and the chassis ground trace (if applicable)
must be capable of conducting a current of 1.5 times
the value of the fuse without opening. The fuse must
not be placed in the grounded input line, if any.
must pass
a
dielectric withstand test for
Reinforced insulation. Design of this type of
systems requires expert engineering and
understanding of the overall safety requirements
and should be performed by qualified personnel.
MAR 06, 2006 revised to APR 20, 2006
Page 10 of 11
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HHS04Z52 DC-DC Converter Data Sheet
48 V Input, 52.5 V @ 3.8 A Half-Brick Converter
12. Mechanical Drawing
(PIN SIDE)
Pin
1
Function
-Vin
Note: A highly puncture-resistant insulator sheet is attached to the module (pin side) as a
standard feature on each unit (not shown). This adds a protective barrier layer between the
converter and the host board.
2
Case
On/Off
+Vin
3
Mechanical Tolerances
4
5
-Vo
Inches
X.XX ± 0.020
X.XXX ± 0.010
Millimeters
X.X ± 0.5
X.XX ± 0.25
6
-Sense
Trim
7
8
+Sense
+Vo
Pin
9
± 0.002
± 0.05
13. Ordering Information
Options
Suffixes to add to part number
Positive- not available (note 1)
Negative - Add “N” suffix
Remote ON/OFF
Trim
Positive - “T” suffix (required)
0.18”- Standard, no suffix required
0.145”- Add “7” suffix
Pin Length
0.110”- Add “8” suffix (note 1)
Host board Insulator
Consult factory
Standard, no suffix required (see note above)
1
NUCLEAR AND MEDICAL APPLICATIONS - Power-One products are not designed, intended for use in, or authorized for use as critical
components in life support systems, equipment used in hazardous environments, or nuclear control systems without the express written
consent of the respective divisional president of Power-One, Inc.
TECHNICAL REVISIONS - The appearance of products, including safety agency certifications pictured on labels, may change depending
on the date manufactured. Specifications are subject to change without notice.
MAR 06, 2006 revised to APR 20, 2006
Page 11 of 11
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