Delta DIM3R3300SFB 300w dual input power processing dc/dc power module Datasheet

FEATURES
Š
High efficiency 98% @ 48Vin, 300W
Š
Size: 70.6x36.8x12.7mm (2.78”x1.45”x0.5”)
Š
Standard footprint
Š
Industry standard pin out
Š
Input OVP, UVLO, Output OCP, OVP, OTP
8W (3.3Vdc or 5.0Vdc) of isolated
Š
management power for module self or other
housekeeping functions
5V/100mA BLUE_LED power
Š
Input OR'ing for the A/B dual input power
Š
feeds as well as A/B Enable signals
Inrush protection and hot swap capability
Š
Integral EMI filter designed for the ATCA
Š
board to meet CISPR Class B
Independent 72Vdc output for charging the
Š
external holdup capacitors resulting in
significant board real estate savings and
bleed resistor power dissipation
ISO 9001, TL 9000, ISO 14001, QS9000,
Š
OHSAS18001 certified manufacturing facility
UL/cUL 60950-1 (US & Canada), and TUV
Š
(EN60950-1) - pending
Delphi Series DIM, 300W Dual Input Power
Processing DC/DC Power Modules
The Delphi DIM series, 300W dual redundant input power processing
isolated DC/DC converter is the latest offering from a world leader in
power system and technology and manufacturing ― Delta Electronics,
Inc. This product family provides up to 300 watts of power in an industry
standard footprint and pinout. The DIM series is designed to simplify the
task and reduce the board space of implementing dual redundant, hot
swappable 48Vdc power distribution with EMI filtering and inrush
current limiting for an ATCA (Advanced Telecommunications
Computing Architecture) or other telecom boards. In addition to
processing the dual redundant 48V bus, the DIM module also provides
isolated auxiliary 3.3V or 5V (8W), and/or 5V (100mA) BLUE_LED
power for other housekeeping functions. With creative design
technology and optimization of component placement, these converters
possess outstanding electrical and thermal performances, as well as
extremely high reliability under highly stressful operating conditions. All
models are fully protected from abnormal input/output voltage, current,
and temperature conditions. The Delphi DIM series converters meet all
safety requirements with basic insulation.
PRELIMINARY DATASHEET
DS_DIM3R3_03252009
OPTIONS
Š
3.3V or 5V management Power
APPLICATIONS
Š
Telecom / Datacom
Š
Wireless Networks
Š
Optical Network Equipment
Š
Server and Data Storage
Š
Industrial / Testing Equipment
TECHNICAL SPECIFICATIONS
(TA=25°C, airflow rate=300 LFM, Vin=-48Vdc, nominal Vout unless otherwise noted;)
PARAMETER
ABSOLUTE MAXIMUM RATINGS
Input Voltage
Continuous
Transient
Operating Case Temperature
Storage Temperature
ISOLATION
Input to MGMT_PWR Output Voltage
Input to SHELF_GND Voltage
Input to LOGIC_GND Voltage
LOGIC_GND to SHELF_GND Insulation Resistance
GENERAL SPECIFICATIONS
Calculated MTBF
Over-Temperature Shutdown
Weight
MAIN INPUT (DUAL FEED) CHARACTERISTICS
Operation Input Voltage Range
Input UVLO
Turn-On Voltage Threshold
Turn-Off Voltage Threshold
Input OVP
Turn-On Voltage Threshold
Turn-Off Voltage Threshold
Off Converter Input Current
Maximum Input Current
POWER & MAIN OUTPUT (-48V output)
Input Power, Maximum Allowable
Efficiency
Efficiency
Total Power Dissipation
Management Power, Maximum Deliverable
Module Standby Current
Vin=-36V,
Vin=-48V,
Vin=-75V
Main Output External Output Filter Capacitance
HOT SWAP
Inrush Transient
0~0.9mS
0.9~3mS
3~100mS
INPUT A/B FEED LOSS / FUSE ALARM
Alarm ON Input Voltage Threshold
Alarm Off Input Voltage Threshold
Opto Transistor Collector to Emitter Voltage
Opto Transistor Collector to Emitter Dark Current
Opto Transistor Collector Saturation Voltage
HOLD UP CAPACITANCE INTERFACE
Hold-up Capacitor Voltage Accuracy
Hold-up Capacitor Charge Current
Minimum Hold-up Capacitance (C_HOLD)
72V_CAP ON Input Voltage Threshold
72V_CAP OFF Input Voltage Threshold
PRELIMINARY DATASHEET
DS_DIM3R3_03252009
NOTES and CONDITIONS
10μs
Please refer to Fig.13 for the measuring point, Tc
100Vdc
DIM3R3300 (Standard)
Min.
Typ.
Max.
Units
0
-48
-75
-100
117
125
Vdc
Vdc
°C
°C
1500
1500
1500
Vdc
Vdc
Vdc
MΩ
-40
-55
10
Pin=240W, Vin=-48V
Refer to Figure 13 for the measuring point, Tc
TBD
130
27
-36
VRTN_OUT
VRTN_OUT
open load
open load
Mhours
°C
grams
-75
V
Vdc
Vdc
Vdc
Vdc
Vdc
mA
A
-33.2
-30.2
-34.6
-31.6
-36
-33
VRTN_OUT open load
VRTN_OUT open load
Vin < UVLO voltage
Pin=300W, Vin=0 to -75V
-78
-80
-79.8
-81.8
10
-81.5
-83.5
Pin=300W, MGMT_PWR/BLUE_LED_PWR no load
Pin=300W, MGMT_PWR=8W, BLUE_LED_PWR =0.5W
Pin=300W, MGMT_PWR=8W, BLUE_LED_PWR=0.5W
97
96
9.5
300
8
W
%
%
W
W
330
mA
mA
mA
μF
42.5
17
8.5
A
A
A
98
97
10
Pout=0W, MGMT_PWR=0W, BLUE_LED_PWR=0W
80
45
40
200
Pin=300W, Vin=-75V, MGMT_PWR=0,
BLUE_LED_PWR=0W
-36
-37.3
-36.8
-37.5
-37.9
-37.7
40
100
0.3
%
%
Vdc
nA
V
-70
72
24
-74
-37
-37.6
-38
-38.6
V
mA
μF
V
V
Opto Diode current, Id = 0A
47
-36
-36.6
2
TECHNICAL SPECIFICATIONS
(TA=25°C, airflow rate=300 LFM, Vin=48Vdc, nominal Vout unless otherwise noted;)
PARAMETER
MANAGEMENT POWER
Operating Input Voltage
Output Voltage Set-point
Output Voltage (total)
Output Regulation
Line Regulation
Load Regulation
Temperature Regulation
Output Voltage Overshoot
Back-Drive Current
Switching Frequency
MANAGEMENT POWER (3.3V)
Output Ripple and Noise
RMS
Peak-to-peak
Output Current
Over Current Protection
Output Short-circuit Current (RMS)
Hiccup Mode Restart Time
Output Over Voltage Protection
Dynamic Response (20 MHz bandwidth)
Peak Deviation
Settling Time
Turn-On Delay Times
Turn-On Rising Times
External Load Capacitance
MANAGEMENT POWER (5V option)
Output Ripple and Noise
RMS
Peak-to-peak
Output Current
Over Current Protection
Hiccup Mode Restart Time
Output Over Voltage Protection
Dynamic Response (20 MHz bandwidth)
Peak Deviation
Settling Time
Turn-On Delay Times
Turn-On Rising Times
External Load Capacitance
BLUE LED POWER 5V
Operating Input Voltage
Total Output Voltage Range
Output Regulation
Output Ripple and Noise
Operating Output Current Range
PRELIMINARY DATASHEET
DS_DIM3R3_03252009
NOTES and CONDITIONS
Continuous
I(MGMT_PWR)=1.25A
Over Vin, load, temperature
DIM3R3300 (Standard)
Min.
Typ.
Max.
Units
-36
-1.5
-3
-48
-75
+1.5
+3
%Vo
%Vo
Vi= Vi,min to Vi,max
Io=Io,min to Io,max
Ta=Ta,min to Ta,max
0.05
0.05
NA
0
450
10μF Tan cap and 1μF ceramic cap
5Hz to 20 MHz bandwidth
5Hz to 20MHz bandwidth
Hiccup mode
0
3
TBD
10
5
Voltage limitation mode
load step is 50%~100%~50%, slew rate is 0.1A/μS
3
800
25
5
I(MGMT_PWR)=2.5A
I(MGMT_PWR)=2.5A
Io=Io,min to Io,max
20
70
2.4
6.5
mV
mV
A
A
A
mS
V
5.4
5
TBD
0
1.9
1.6
2.5
10
TBD
Voltage limitation mode
load step is 50%~100%~50%, slew rate is 0.1A/μS
3
TBD
TBD
TBD
I(MGMT_PWR)=1.6A
I(MGMT_PWR)=1.6A
Io=Io,min to Io,max
Continuous
%Vo
%Vo
%Vo
%Vo
mA
KHz
1000
5Hz to 20 MHz bandwidth
5Hz to 20MHz bandwidth
Hiccup mode
0.2
0.2
1
3
5
TBD
-36
4.9
-3
-48
5
-75
5.1
3
5
0
0.1
%Vo
μS
mS
mS
μF
mVc
mV
A
A
mS
V
%Vo
μS
mS
mS
μF
Vdc
Vdc
%Vo
mV
A
3
DIM3R3 INTERNAL BLOCK DIAGRAM
PIN FUNCTIONS
PIN NO.
PIN NAME
DESCRIPTION
1
-48_AF
-48V_A Feed (Externally Fused)
2
-48_BF
-48V_B Feed (Externally Fused)
3
VRTN_AF
VRTN_AF Feed (Externally Fused)
4
VRTN_BF
VRTN_BF Feed (Externally Fused)
5
ENABLE_AF
ENABLE_AF Feed (Externally Fused)
(Short Pin, connected to VRTN_AF on the back plane)
6
ENABLE_BF
ENABLE_BF Feed (Externally Fused)
(Short Pin, connected to VRTN_BF on the back plane)
7
SHELF_GND
Shelf / Chassis / Safety Ground
8
72V_CAP
Holdup/Bulk capacitor output voltage (Negative Connection to -48V_OUT)
9
-48V_OUT
OR’d and Inrush Protected –48V Output Bus
10
MGMT_PWR
11
5V BLUE_LED_PWR
This pin is optional for 5V Isolated Blue LED Power output (reference to LOGIC_GND)
12
LOGIC_GND
Logic / Secondary / Isolated Ground
13
-48V_ALARM
Opto-isolated -48V A/B Feed Loss or Open Fuse Alarm (reference to LOGIC_GND)
14
VRTN_OUT
OR’d and Inrush Protected VRTN Output Bus
PRELIMINARY DATASHEET
DS_DIM3R3_03252009
3.3V Isolated Management Power Output (reference to LOGIC_GND)
This pin is optional for 5V Isolated Management Power Output (reference to LOGIC_GND)
4
ELECTRICAL CHARACTERISTICS CURVES
CH 1
CH 1
CH 3
CH 2
CH 2
CH 3
Figure 1: Input voltage turn-on threshold (2mS/div):
CH1: Vin (VRTN_AF reference to -48V_AF, 10V/div).
CH2: Iin (-48V_AF, 2A/div).
CH3: VRTN_OUT reference to –48V_OUT (10V/div).
Figure 2: Input voltage turn-off threshold (2mS/div):
CH1: Vin (VRTN_AF reference to -48V_AF, 10V/div).
CH2: Iin (-48V_AF, 2A/div).
CH3: VRTN_OUT reference to. –48V_OUT (10V/div).
Test conditions:
(1) Feed A=37Vdc (Von slew rate= 0.1V/ms); Feed B=0Vdc
(2) I(VRTN_OUT)=1A, I(3.3V)=0A,I(5V BLUE_LED_PWR)=0A.
(3) C2=220uF, C_hold=220uF
Test conditions:
(1) Feed A=37Vdc (Voff slew rate= 0.3V/ms); Feed B=0Vdc
(2) I(VRTN_OUT)=1A,I(3.3V)=0A,I(5V BLUE_LED PWR)=0A.
(3) C2=220uF, C_hold=220uF
CH 1
CH 4
CH 3
CH 1
CH 2
CH 2
CH 3
Figure 3: Inrush current (2mS/div):
CH1: Vin (VRTN_AF reference to -48V_AF, 10V/div).
CH2: Iin (-48V_AF, 2A/div).
CH3: VRTN_OUT reference to –48V_OUT (10V/div).
Test conditions:
(1) Feed A=48Vdc, Feed B=0Vdc.
(2) I(VRTN_OUT)=1A, I(3.3V)=0A, I(5V BLUE_LED PWR)=0A.
(3) C2=220uF, C_hold=220uF
PRELIMINARY DATASHEET
DS_DIM3R3_03252009
Figure 4: Oring for one feed loss (500µS/div):
CH1: IinA (2A/div)
CH2: IinB (2A/div).
CH3: VRTN_OUT reference to –48V_OUT (10V/div).
CH4: VMGMT_PWR (1V/div).
Test conditions:
(1) Feed A=60V, Feed B=48V;
(2) Q48SH12025: I(12 Vout)=22.5A, I(3.3V)=2.5A,
I(5V BLUE_LED PWR)=0A.
(3) C2=220uF, C_hold=220uF
5
ELECTRICAL CHARACTERISTICS CURVES
CH1
CH4
CH2
CH2
CH3
CH3
Figure 5: Hold up performance (5mS/div):
CH1: Vin (VRTN_AF reference to -48V_AF, 10V/div).
CH2: Iin (2A/div).
CH3: 12V Vout (5V/div).
CH4: VRTN_OUT reference to –48V_OUT (10V/div).
Test conditions:
(1) Feed A=48Vdc; Feed B=0Vdc
(2) Q48SH12025: I(12V Out)=22.5A, I(3.3V)=2.5A,
I(5V BLUE_LED PWR)=0A.
(3) C2=220uF, C_hold=470uF X4
CH1
Figure 6: -48V_ALARM with loss of Feed (20mS/div):
CH1: VinA (VRTN_AF reference to -48V_AF, 20V/div).
CH2: VinB (VRTN_BF reference to -48V_BF, 20V/div).
CH3: -48V_ALARM (2V/div)
Test conditions:
(1) Feed A turn off from 48Vdc; Feed B=48Vdc.
(2) Q48SH12025: I(12V Out)=22.5A, I(3.3V)=2.5A,
I(5V BLUE_LED PWR)=0A.
(3) C2=220uF, C_hold=220uF
CH3
CH2
CH1
Figure 7: Efficiency vs. load current for minimum, nominal,
and maximum input voltage at 25°C:
Test conditions:.
(1) I(MGMT_PWR)=0A; I(5V BLUE_LED PWR)=0A;
(2) C2=220uF, C_hold=220uF
(3)Po( VRTN_OUT ref to -48V_OUT)from 30W to 300W
PRELIMINARY DATASHEET
DS_DIM3R3_03252009
Figure 8: MGMT_PWR (3.3V) and BLUE_LED_PWR (5V)
start up waveform (10mS/div):
CH1: VinA (VRTN_AF referenced to -48V_AF, 50V/div).
CH2: V(MGMT_PWR) (1V/div);
CH3: V(5V BLUE_LED_PWR) (1V/div)
Test conditions:
(1) Feed A=48Vdc; Feed B=0Vdc
(2) I(VRTN_OUT)=1A,I(3.3V)=2.5A,
I(5V BLUE_LED PWR)=0.1A
(3) C2=220uF, C_hold=220uF
6
ELECTRICAL CHARACTERISTICS CURVES
CH 1
CH 1
CH 2
CH 2
Figure 9: MGMT_PWR (3.3V) and BLUE_LED_PWR (5V)
output ripple/noise (2uS/div):
CH1: Vo, MGMT_PWR (20mV/div).
CH2: Vo, 5V BLUE_LED_PWR (20mV/div).
Figure 10: MGMT_PWR (3.3V) dynamic response
(1mS/div):
CH1: Vo, MGMT_PWR (50mV/div).
CH2: Io, MGMT_PWR (1A/div)
Test conditions:
(1) Feed A=48Vdc; Feed B=0Vdc
(2) I(3.3V)=1.25A,I(5V BLUE_LED_PWR)=0.1A
I(VRTN_OUT)=6.3A
(3) C2=220uF, C_hold=220uF
Test conditions:
(1) Feed A=48Vdc; Feed B=0Vdc
(2) 3.3V MGMT_PWR load current (50%-75%-50% of Io,max,
di/dt = 0.1A/µs), I(VRTN_OUT)=6.3A.
(3) C2=220uF, C_hold=220uF
PRELIMINARY DATASHEET
DS_DIM3R3_03252009
7
APPLICATION CIRCUITS
TYPICAL VALUES FOR ABOVE COMPONENTS:
POSITION
VALUE
F1,F2
1A, FUSE
F3,F4
15A, FUSE
F5,F6
15A, FUSE
R1,R2
15Ω, RESISTOR
R3
7.5KΩ, RESISTOR
C1
10μF, CAP
C2
200~330μF, CAP
C3
C_HOLD
NOTE
Defined by DC/DC converter application note
2 * Power * T _ HLDP
72V 2 − Vth 2
PRELIMINARY DATASHEET
DS_DIM3R3_03252009
for the definition of parameters, please see page 10
8
FEATURES AND DESIGN
CONSIDERATIONS
Introduction
The DIM3R3/050 module is designed to simplify the task
and reduce the board space of an ATCA (Advanced
Telecommunications Computing Architecture) power
entry distribution requirements in the system board.
EMI Filtering
An internal EMI filter is designed for the ATCA board to
meet the system conducted emission requirements of
CISPR 22 Class B when used with Delta DC/DC
converters.
Figure 17 shows the EMI performance of DIM3R3 when
it worked with Delta power module Q48SH12025NRFA
(36~75Vin, 12V/25A output Quarter brick). It meets
CISPR 22 Class B requirement.
The main functionality of the module is to provide dual,
redundant -48V A/B Feed OR’ing, inrush protection for
hot swap capability, EMI filtering to attenuate the noise
generated by the downstream DC/DC converters, and a
72V output voltage for charging the holdup capacitor.
The module also has a management power supply
which provides an 8W, 3.3V or 5V management power
and/or a 5V/100mA output (optional) to power the blue
LED per PICMG 3.0 requirement.
The module provides A/B feed/fuse open alarm, over
current protection, over voltage protection, and over
temperature protection. It also provides input under
voltage lock-out and input reverse polarity protection.
A/B Feed OR’ing
To improve the total power distribution efficiency, four
internal MOSFETs are used to function as the OR’ing
diodes. A control circuit is designed to keep about
100mV voltage drop across MOSFET. During full load
operation, the MOSFETs are fully turned on. During light
load, the MOSFETs work under a high Rdson condition.
If the output current decreases to zero, the MOSFETs
will be turned off. This design provides module a reverse
voltage sustain function. The module shall not be
damaged from reverse polarity connection in the event
of mis-wiring of either input feeds at the shelf input
terminals. Furthermore, a fast shut down circuit is
designed for the negative current case. This design
protects the common DC bus against hard short faults at
the sourcing power supply output.
Hot Swap Functionality
The hot-swap function is designed to limit the inrush
current charged to the bulk capacitor of the down stream
bus converter. The current value and duration comply
with the PICMG 3.0’s Inrush Transient specs.
Although the inrush current for bulk capacitor is under
control, special attentions need to be paid to the current
for EMI filter because this circuit is in front of hot-swap
circuit.
PRELIMINARY DATASHEET
DS_DIM3R3_03252009
Figure 11: EMI test result with Q48SH12025NRFA:
Holdup
Capacitor
(72V_CAP)
Charging
Current
An off line holdup capacitor (C_HLDP) is needed to
store energy for the holdup time requirement. C_HLDP
is charged to 72V (+/- 3% tolerance). For a fixed energy
storage requirement, high capacitor voltage reduces
capacitor capacitance and size. A constant current
circuit charges C_HLDP before its voltage reaches the
high limitation and isolates it from power train circuit.
The discharge switch will turn on if both A&B feeds have
dropped below –38V (typical). C_HLDP will be
connected to power train and provided the energy for
system operation.
C_HLDP is calculated by the following equation:
C _ HLDP =
2 * Power * T _ HLDP
72V 2 − Vth 2
Where Power is the input power to the downstream
DC/DC converter; T_HLDP is the holdup time
requirement; Vth is the minimum input voltage threshold
of the downstream DC/DC converter.
9
FEATURES AND DESIGN
CONSIDERATIONS (CONTINUED)
The PICMG 3.0’s requirements for the 0 Vdc transient is
5mS with 50V/ms fall slew rate and 12.5 V/ms rise slew
rate. This requirement will lead to a 9.3ms T_HLDP
requirement assuming power is interrupted at -43Vdc
(Vth).
Considering power output is 300W, Vth is 43V,
C _ HLDP =
2 * 300 * 9.3
= 1672(uF )
72 2 − 432
When the input voltage is at the threshold of discharge,
C_HLDP will go off line and the charge pump will
recharge it to 72V.
The discharge resistor for C_HLDP is not required,
because there is sufficient standby current in the module
to bleed the holdup capacitors from 75V to 60V within 1
second as specified in the PICMG 3.0. Furthermore a
bleed resistor will induce extra loss of the MOSFET of
the charging circuit.
Over-Current Protection
DIM3R3/050 provides two over current protection levels.
When the output current exceeds the low current limit
level, the current will be kept for a period of time before
the module is shut down. After a fixed delay time, the
module will try to restart. If the output current exceeds
the high current limit level, the module will shut down
immediately. Then it will go through the same restarting
procedure.
Transient Over Voltage Protection
The PICMG 3.0 requires the module work normally
under 200V/5μS and 100V/10μS input voltage transient.
DIM3R3/050 can meet the requirement. An internal TVS
with 80V/1500W peak pulse power rating will suppress
the 200V transient voltage. For the 100V pulse voltage,
the power train impedance will damp it below internal
components rating without shut down the module. When
input voltage of the module is higher than 81.8V, the
module will be turned off. The module will restart when
the input voltage drop down to 79.8V.
Management Power and Blue_LED Power
The module contains two isolated DC output. The first
output provides up to 8W of 3.3V (DIM3R3) or 5.0V
(DIM050)
management
power
(reference
to
LOGIC_GND). This power is used to power the IPM
controller for the ATCA board or to power up system
controller for other applications. The second isolated
output, 5V/100mA, is used to power the Blue LED per
PICMG 3.0 requirement.
The management power is available as soon as the
input voltage levels are within –36Vdc to –75Vdc. The
output is short circuit and over voltage protected. The
module is in a hiccup mode under an OCP or short
output condition. The output voltage will keep constant
under over voltage status. No additional output
capacitors are required, but a 22µF tantalum/ceramic
and a 0.01µF to 0.1µF ceramic capacitors are highly
recommended to reduce the switching ripple and noise.
Higher output capacitance may be required in case of
large input line or output load transient conditions.
A/B Feed / Fuse Alarm (-48V_ALARM)
The input feeds A and B are monitored. The module will
send an opto-isolated signal if any of the feed is below
the voltage threshold (typical 35V). Therefore, the loss
of any A or B feed can be detected. The opto coupler
transistor on state indicates a normal status and off
state indicates a fault condition.
Input Under Voltage Lockout
The input under-voltage lockout prevents the module from
being damaged by low input voltage. When the input
voltage is lower than its threshold voltage, the module will
be turned off. The lockout occurs between -33.3V to
-35.3V.
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10
THERMAL CONSIDERATIONS
THERMAL CURVES
Thermal management is an important part of the system
design. To ensure proper, reliable operation, sufficient
cooling of the power module is needed over the entire
temperature range of the module. Convection cooling is
usually the dominant mode of heat transfer.
Hence, the choice of equipment to characterize the
thermal performance of the power module is a wind
tunnel.
Thermal Testing Setup
Delta’s DC/DC power modules are characterized in
heated vertical wind tunnels that simulate the thermal
environments encountered in most electronics
equipment. This type of equipment commonly uses
vertically mounted circuit cards in cabinet racks in which
the power modules are mounted.
The following figure shows the wind tunnel
characterization setup. The power module is mounted
on a test PWB and is vertically positioned within the
wind tunnel. The space between the neighboring PWB
and the top of the power module is constantly kept at
6.35mm (0.25’’).
Figure 13: Temperature measurement location
* The allowed maximum hot spot temperature is defined at
117°C
Output Current(A)
7
DIM3R3300(Standard) Output Current vs. Ambient Temperature and Air Velocity
@Vin = 48V; 3.3V&5V=8W (Transverse Orientation)
6
5
Natural
Convection
4
100LFM
200LFM
3
300LFM
2
PWB
FACING PWB
400LFM
1
500LFM
MODULE
600LFM
0
25
30
35
40
45
50
55
60
65
70
75
80
85
Ambient Temperature (℃)
Figure 14: Output current vs. ambient temperature and air
velocity @Vin=48V (Transverse Orientation, Pout2 = 8 W
(Vout2=3.3V), Pout3 = 0.5 W (Vout3=5V)
AIR VELOCITY
AND AMBIENT
TEMPERATURE
MEASURED BELOW
THE MODULE
50.8 (2.0”)
Output Current(A)
7
DIM3R3300(Standard) Output Current vs. Ambient Temperature and Air Velocity
@Vin = 48V; 3.3V&5V=0W (Transverse Orientation)
AIR FLOW
6
12.7 (0.5”)
Note: Wind Tunnel Test Setup Figure Dimensions are in millimeters and (Inches)
Figure 12: Wind tunnel test setup
100LFM
4
3
Thermal Derating
2
Heat can be removed by increasing airflow over the
module. To enhance system reliability, the power
module should always be operated below the maximum
operating temperature. If the temperature exceeds the
maximum module temperature, reliability of the unit may
be affected.
1
PRELIMINARY DATASHEET
DS_DIM3R3_03252009
Natural
Convection
5
0
25
30
35
40
45
50
55
60
65
70
75
80
85
Ambient Temperature (℃)
Figure 15: Output current vs. ambient temperature and air
velocity @Vin=48V (Transverse Orientation, Pout2 = 0 W
(Vout2=3.3V), Pout3 = 0 W (Vout3=5V)
11
MECHANICAL DRAWING
Pin No
1
2
3
4
5
6
7
8
9
10
11
12
13
14
Name
Function
-48V_AF
-48V_BF
VRTN_AF
VRTN_BF
ENABLE_AF
ENABLE_BF
SHELF_GND
72V_CAP
-48V_OUT
MGMT_PWR
5V BLUE LED_PWR
LOGIC_GND
-48V_ALARM
VRTN_OUT
-48V_A Feed (Externally Fused)
-48V_B Feed (Externally Fused)
VRTN_AF Feed (Externally Fused)
VRTN_BF Feed (Externally Fused)
ENABLE_AF Feed (Externally Fused)
ENABLE_BF Feed (Externally Fused)
Shelf / Chassis / Safety Ground
Holdup/bulk capacitor output voltage (Negative Connection to -48V_OUT)
OR’d and inrush protected –48V output bus
3.3V or 5V Isolated Management Power Output (reference to LOGIC_GND)
This pin is optional for 5V Isolated Blue LED Power output (reference to LOGIC_GND)
Logic / Secondary / Isolated Ground
Opto-isolated -48V A/B Feed Loss or Open Fuse Alarm (reference to LOGIC_GND)
OR’d and Inrush Protected VRTN Output Bus
Pin Specification:
Pins 1-14
1.00mm (0.040”) diameter
All pins are copper alloy with Tin plating.
PRELIMINARY DATASHEET
DS_DIM3R3_03252009
12
PART NUMBERING SYSTEM
DIM
3R3
300
S
Product Series
Management
Power
Output Power
Pin
Length
300 - 300W
S - 0.150”
DIM - ATCA Input
3R3 - with 3.3V
Module
050 - with 5V
F
A
Option Code
F- RoHS 6/6
(Lead Free)
A - with management power (3.3V or 5V) on Pin 10
only, no Pin 11
B - with management power (3.3V or 5V) on Pin 10
and Blue LED power (5V) on pin 11
MODEL LIST
MODEL NAME
INPUT
OUTPUT 1
OUTPUT 2 (Pin10) OUTPUT 3 (Pin11)
Eff @ 100% Input Power
Management Power Blue LED Power
DIM3R3300SFA
36V~75V
300W
36V~75V
3.3V/2.4A
NA
98%
DIM3R3300SFB
36V~75V
300W
36V~75V
3.3V/2.4A
5V/0.1A
98%
DIM050300SFA
36V~75V
300W
36V~75V
5V/1.6A
NA
98%
CONTACT: www.delta.com.tw/dcdc
USA:
Telephone:
East Coast: (888) 335 8201
West Coast: (888) 335 8208
Fax: (978) 656 3964
Email: [email protected]
Europe:
Phone: +41 31 998 53 11
Fax: +41 31 998 53 53
Email: [email protected]
Asia & the rest of world:
Telephone: +886 3 4526107 ext 6220
Fax: +886 3 4513485
Email: [email protected]
WARRANTY
Delta offers a two (2) year limited warranty. Complete warranty information is listed on our web site or is available upon
request from Delta.
Information furnished by Delta is believed to be accurate and reliable. However, no responsibility is assumed by Delta for its
use, nor for any infringements of patents or other rights of third parties, which may result from its use. No license is granted
by implication or otherwise under any patent or patent rights of Delta. Delta reserves the right to revise these specifications
at any time, without notice.
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DS_DIM3R3_03252009
13
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