Astrodyne ASD75EB 75 watt, high density, eighth brick dc/dc converter Datasheet

ASD75EB
75 Wa tt , H i g h D ens it y, E ight h B ric k D C / DC Co n ve rte r
series
Small 2.32” x 0.9” x 0.37” Size
Constant Frequency
High Typical Efficiency of 92% (12Vout)
Low Output Noise
24 or 48VDC Nominal Input Voltage Options
Output Over Voltage Protection
Current Limit/Short Circuit Protection
Adjustable Output Voltage 80-110% of Vo
DESCRIPTION:
The ASD75EB Series of products are open frame, high density, dc/dc converters designed for use in distributed power architectures and may, in many cases,
be used as fit and function replacements for industry standard quarter brick
modules with a 34% space savings. Synchronous Rectification enables these
power supplies to produce up to 75W of high efficiency power in an 1/8th brick
(2.32in. x 0.90in. x 0.37in. ) package.
No Sink Current from Output During Shutdown
Logic ON/OFF Control
MTBF of 1.3Mhrs
RoHS Compliant
CSA Certified to IEC 60950-1 for Basic Insulation
Model Number
Output Voltage
Output Amps
Input Range
Max. Iin FL
Efficiency
Max Output Power
ASD75-24S3.3EB
ASD75-24S5EB
ASD75-24S12EB
ASD75-48S3.3EB
ASD75-48S5EB
ASD75-48S12EB
3.3 VDC
5 VDC
12 VDC
3.3 VDC
5 VDC
12 VDC
20
15
6.25
20
15
6.25
18-36 VDC
18-36 VDC
18-36 VDC
36-75 VDC
36-75 VDC
36-75 VDC
4.9A
5.5A
5.5A
2.5A
2.9A
2.9A
89%, typ.
90.5%, typ.
91.5%, typ.
89%, typ.
91%, typ.
92%, typ.
66 Watts
75 Watts
75 Watts
66 Watts
75 Watts
75 Watts
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75 Wa tt , H i g h D ens it y, E ight h B ric k D C / DC Co n ve rte r
ASD75EB
ABSOLUTE MAXIMUM RATINGS (MIN TO MAX.)
ISOLATION SPECIFICATIONS
Input Voltage (+In to -In)
Transient Input Voltage
Operating Temperature
Storage Temperature (Ambient)
Wave Solder Temperature
Input-Output
Input-Output Capacitance
Isolation Resistance
24Vin: 18-36VDC Continuous
48Vin: 36-75VDC Continuous
24Vin: 50VDC (100mS max.)
48Vin: 100VDC (100mS max.)
-40 to 85°C (See Derate Curve)
125°C
260°C for 10 Seconds
INPUT SPECIFICATIONS (400LFM AIRFLOW)
Input Operation Voltage:
See Model Chart on Page 1
Input Current FL (0 Vin - Vin max.) See Model Chart on Page 1
Input Transient
1A²t
Input Reflected Ripple Current
20mAp-p, typ. (Note 1)
Startup Input Voltage (Note 4)
24Vin: 16-18VDC
48Vin: 33-36VDC
Shutoff Input Voltage
24Vin: 14-16VDC
48Vin: 30-33VDC
Hysteresis
1V
OUTPUT SPECIFICATIONS
Output Voltage
See Model Chart on Page 1
Output Current (Io, max.)
See Model Chart on Page 1
Output Set Point (Vo,set)
+/-1.5%, Nominal Vin, FL
Total Output Voltage Range
+/- 3%
Line/Load Regulation
+/-1%
Temperature Regulation
+/-1%, -40 to 70°C
Ripple/Noise
150mV p-p max., 30mVrms (Note 2)
Dynamic Response:
(Note 3)
Peak Deviation
4% Vnom
Settling Time
200uS Vout within 1% Vnom
Over Voltage Protection
110-140% of Output, Hiccup Mode
Over Temperature Protection
105-125°C, auto recover
(converter hot spot temperature)
External Capacitance (Electrolytic) 3.3 & 5Vout: 10 to 5000uF max.
12Vout: 220 to 1200uF max.
Short Circuit Protection (rms)
15Arms, Hiccup, Rout ≤10M Ω
Current Limit (rms.)
105-140%, Hiccup Mode
Efficiency FL
See Model Chart on Page 1
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series
1500VDC
1500pF
10MΩ
GENERAL SPECIFICATIONS
MTBF
Weight
Dimensions
1.3Mhrs
0.72 oz (20.5g)
2.3” x 1.45” x 0.47”
(58.4 x 36.8 x 12mm)
CONTROL SPECIFICATIONS
Input Logic Low
Input Logic High
Turn-On Time
Trim Adjustment Range
Voltage at 1mA current relative to
-Vin is 1V max.
Current at 0 volts is 1mA
Enable pin voltage relative to -Vin
is 5.5V
Leakage current is 100uA
500mS, FL, o=90% Vo, set
80-110% See TRIM FUNCTION
Fig 4
NOTES
1.Measured before Input Filter, 12uH inductor
2.Scope measurement should be made using a BNC connector with 1uF
and 10uF aluminum electrolytic capacitor across output. Scope set to
read at 20MHz bandwidth.
3. 25%-50%-75% load, 0.1A/uS
4. The Cold Start condition is a uniform converter temperature of -40°C
after thermal stabilization. An additional 2x220uF is needed for cold
startup conditions. The Hot Start condition for start up is a uniform converter temperature of 65°C after thermal stabilization.
All specifications are typical at nominal input, full load, and 25DegC unless
otherwise noted
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ASD75EB
75 Wa tt , H i g h D ens it y, E ight h B ric k D C / DC Co n ve rte r
series
PIN OUTS
Figure 1: 1:
ASD75EB
SeriesSeries
Pin OutsPin Outs
Figure
ASD75EB
OUTLINE
DRAWING
OUTLINE
DRAWING
(PIN 4)
PIN 1
BOTTOM VIEW
Figure 2: Mechanical Outline
Figure 2: Mechanical Outline
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75 Wa tt , H i g h D ens it y, E ight h B ric k D C / DC Co n ve rte r
ASD75EB
series
OPERATING INFORMATION
Enable Pin
The Enable Pin (pin 2) enables the user to control when the converter will turn on or off. This pin is
referenced to –Vin (pin 3). There are two versions available for each converter, positive logic and
negative logic. For positive logic, l eaving the Enable pin open or applying TTL/CMOS high voltage level
turns the converter on, while pulling this pin to –Vin or drawing more than 1mA turns it off. The negative
logic is just the inverse. An external semiconductor switch or mechanical switch can be used to
implement this function.
Remote Sense
The remote sense pins +Sense (pin 7) and –Sense (pin 5) allows the converter to correct for voltage drops
across the connections from the converter output pins +/-Vout (pins 8 and 4 respectively) to the intended
load. The +/- Sense pins should be connected at the point in the board where regulation is needed. Figure
3 shows the recommended connection.
Figure3:
3: Remote
Remote Sense
Connection
Figure
Sense
connection
The resistive drop across the connections should be small enough since Over Voltage Protection might be
triggered during high load applications. The OVP circuit senses the +/-Vout pins.
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ASD75EB
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Trim
The Trim pin (pin 6) allows the user to adjust the output voltage across the sense pins from the initial
value. Trimming the output voltage requires the user to connect a resistor between Trim and + Vout for
output voltage trim up, or connect a resistor between Trim and – Vout for output voltage trim down. The
functions for trim up, trim down and the circuit implementation is shown in the figure 4.
Rtrim-down = (511 /Δ %) – 10.22
kOhms
Rtrim-up = (5.11Vout|100 +Δ% | / 1.225Δ%) – (511/Δ%) – 10.22 kohms
Where:
Δ% = [(V nominal-V desired)/V nominal] x 100%
Figure 4: TRIM Function
There is an upper limit to the trim up since the OVP level is fixed. Trimming the output voltage too high
may trigger the OVP circuit during higher load applications or during transients.
Current Limit Protection
The ASD75EB series modules include over current protection that allows them to withstand prolonged
overloads or short circuit conditions on the output without over heating. The ASD75EB series employs
hiccup mode protection such that the output shuts down during these conditions, waits for a predetermined
time (~500mS), and tries to restart. If the overload condition is still present, the converter will stop trying to
increase the output voltage and repeat the cycle.
Over Voltage Protection
The ASD75EB series modules have output over voltage protection. In the event of an over voltage
condition in the output pins, the converter will shut down immediately. Similar to hiccup mode, it
will make continuous attempts to start up until the over voltage is gone and resume normal operation
automatically
Input Under-Voltage Lockout
The ASD75EB series is designed to turn off when the input voltage is too low. This is done to avoid
stressing the input side circuitry of the primary circuit. The lockout is a comparator with hysteresis,
thus avoiding the converter jumping from on-off condition when crossing the UVLO threshold.
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ASD75EB
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Over Temperature Protection
The ASD75EB series modules are protected from thermal overload by an internal over temperature protection
IC. When the PCB temperature sense point reaches 125°C, the converter will shut down immediately. The
converter will attempt to restart when the temperature has dropped at least 10°C below the Over
Temperature threshold.
Thermal Considerations
The ASD75EB series are designed to operate in a wide range of thermal environments. However, enough
cooling should be provided to ensure reliable performance. Heat is removed from the converter in 3 ways:
conduction, convection and radiation.
Improved cooling by convection can be done by increasing the airflow through the module. The available
load current for a given ambient air temperature is in the de-rating curves section. The test is done using
the test fixture shown in figure 5.
Pin1
Pin8
Pin3
Pin4
ASD75
Figure
Fixture
Figure5:5:Thermal
ThermalText
Test
Fixture
Proper cooling can be verified by monitoring the temperature of the critical components of the power
stage. Each of the selected critical components was monitored by using thermocouple. The generation of
the thermal de-rating curves involves extensive thermal testing at different combinations of input voltage,
ambient air temperature, load current and airflow with the given test fixture.
However, the final temperature of the module in the final system will depend again on several factors,
including host PCB size, number of layers, and copper weight, airflow direction and turbulence, operating
ambient temperatures, etc… It is highly recommended to verify the thermal performance of the converter
when included in the end system.
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ASD75EB
75 Wa tt , H i g h D ens it y, E ight h B ric k D C / DC Co n ve rte r
series
Thermal Characteristic
Test done using Thermal Set-up of Figure 5; Vin = Vinnom
ASD75-48S3.3EB Power Derating Curve
ASD75-48S5EB Power Derating Curve
120%
120%
100%
0 LFM
80%
100 LFM
60%
200 LFM
40%
300 LFM
Power
Power
100%
100 LFM
200 LFM
60%
300 LFM
40%
400 LFM
20%
0 LFM
80%
400 LFM
20%
0%
0%
25 30
35 40
45 50
55
60 65
70 75
80
85
25 30
Temperature (ºC)
80 85
ASD75-24S3.3EB Power Derating Curve
120%
120%
100%
100%
0 LFM
100 LFM
200 LFM
60%
300 LFM
40%
0 LFM
80%
Power
80%
Power
60 65 70 75
Temperature (ºC)
ASD75-48S12EB
PowerDerating
Derating
Curve
ASD75-48S12EB Power
Curve
100 LFM
60%
200 LFM
300 LFM
40%
400 LFM
400 LFM
20%
20%
0%
0%
25 30
35 40
45 50
55
60 65
70 75
80
25 30
85
Temperature (ºC)
35 40
45 50
55 60 65
70 75
80
85
Temperature (ºC)
ASD75-24S12EB
PowerDerating
Derating
Curve
ASD75-24S12EB Power
Curve
ASD75-24S5EB Power Derating Curve
120%
120%
100%
100%
0 LFM
100 LFM
200 LFM
60%
300 LFM
40%
400 LFM
20%
0 LFM
80%
Power
80%
Power
35 40 45 50 55
100 LFM
60%
200 LFM
300 LFM
40%
400 LFM
20%
0%
25 30
35 40
45 50
55
60 65
Temperature (ºC)
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70 75
80
85
0%
25 30 35 40 45 50
55 60 65 70 75 80 85
Temperature (ºC)
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ASD75EB
75 Wa tt , H i g h D ens it y, E ight h B ric k D C / DC Co n ve rte r
series
Efficiency Curves
Ta=25oC, airflow rate = 400LFM
ASD75-48S3.3EB
Efficiency
ASD75-48S3.3EB
EfficiencyCurve
Curve
ASD75-48S5EB
Efficiency
Curve
ASD75-48S5EB
Efficiency
Curve
36Vdc Input
48Vdc Input
75Vdc Input
95%
95
95%
90%
90%
48Vdc Input
75Vdc Input
85%
80%
Efficiency
Efficiency
85%
36Vdc Input
75%
70%
80%
75%
70%
65%
65%
60%
60%
55%
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
0%
100%
10%
40%
50%
60%
70%
ASD75-24S3.3EB
Efficiency
Curve
ASD75-24S3.3EB
Efficiency
Curve
36Vdc Inpit
48Vdc Input
75Vdc Input
95%
30%
80%
90%
100%
Output Load Current; Imax = 15A
Output Load Current; Imax = 20A
ASD75-48S12EB
Efficiency
Curve
ASD75-48S12EB
Efficiency
Curve
20%
18Vdc Input
24Vdc Input
36Vdc Input
95%
90%
90%
Efficiency
Efficiency
85%
80%
75%
85%
80%
70%
75%
65%
60%
70%
0%
10%
20%
30%
40%
50%
60%
70%
80%
90%
0%
100%
10%
Output Load Current; Imax = 6.25A
ASD75-24S5EB
Efficiency
Curve
ASD75-24S5EB
Efficiency
Curve
40%
50%
60%
70%
ASD75-24S12EB
Efficiency
Curve
ASD75-24S12EB
Efficiency
Curve
18Vdc Input
24Vdc Input
80%
90%
100%
18Vdc Input
24Vdc Input
36Vdc Input
95%
95%
90%
90%
85%
85%
Efficiency
Efficiency
30%
Output Load Current; Imax = 20A
36Vdc Input
80%
75%
80%
75%
70%
70%
65%
0%
20%
65%
60%
10%
20%
30%
40%
50%
60%
70%
80%
90%
0%
100%
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10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Output Load Current; Imax = 6.25A
Output Load Current; Imax = 15A
0315
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