XP Power MTC7528S28 Cots component for defense & avionics application Datasheet

MTC35-150
•
Page 2 - MTC35-50
•
Page 15 - MTC75-150
MTC35 & 50
•
COTS Component for Defense & Avionics Applications
•
Environmental Performance to MILSTD 810
•
10 to 50 VDC Transient Input Range
•
10 to 40 VDC Steady State Input Range
•
55 ˚C to 100 ˚C Operation
•
Cooling Plates and Mounting Holes for Easy Integration
•
Synchronous Rectification on Low Voltage Outputs
•
MILSTD 461 and DEFSTAN 5911
•
MILSTD 1275 and DEFSTAN 615
•
Frequency Synchronization
•
Thermal Warning Signal
The MTC35 & 50 are COTS DC-DC converters developed specifically for the defense and avionics market. These products have full military
specifications while offering the short lead-times and cost benefits of a COTS component.
The products offer excellent size, efficiency and EMC performance and the input range is designed to provide short term operation over 10–50 VDC to
enable the converter to work at full power through the dips and surges commonly seen in vehicle and aircraft applications.
Comprehensive control functions such as voltage trim, remote sense, remote on/off and frequency synchronization to an external source are standard
features. The MTC35 & 50 contain an over temperature warning signal that gives user control over the temperature shutdown function of the converter.
When used in conjunction with the DSF and FSO input filter module the MTC35 & 50 are compliant to MIL-STD 461F CE/CS,
MIL-STD1275A-D and MIL-STD 704B-F as well as DEF-STAN-59-411 and DEF-STAN 61-5 part 6 issue 5.
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Input Characteristics
Characteristic
Input Voltage
Transient Input Voltage Range
UVLO Turn On
UVLO Turn Off
Minimum
10
10
9.5
Typical
28
Maximum
40
50
8.8
Units
VDC
VDC
VDC
VDC
Notes & Conditions
Continuous
50 VDC for 100 ms
See models and ratings table, typical and
measured at 28 VDC input
Input Current
Inhibited Input Current
Inrush Current
Input Reverse Voltage Protection
4
40
mA
A
Peak value
External components required
Output Characteristics
Characteristic
Output Voltage
Output Voltage Adjustment
Output Current
Output Set Tolerance
Minimum Load
Single O/P
Ripple & Noise
Vout ≤5V
Vout >5V
Overvoltage Protection
Overload Protection
Short Circuit Protection
Overtemperature Protection
Minimum
Typical
-20
+10
±1.5
0
50
100
140
140
120
110
Remote Sense
Load Regulation
Maximum
Single O/P
Line Regulation
Maximum Output Capacitance
Start Up Time
Start Up Rise Time
Temperature Coefficient
Notes & Conditions
See models and ratings table for details
-10% min voltage trim for 3V3 version
See models and ratings table for details
No minimum load required
mV
Pk-pk at 100% load and 20 MHz bandwidth
%
%
Vout nominal
At Vin nominal, see figure 3
Output turns off until the short is removed
Baseplate Temperature
Total voltage compensation. Includes Vtrim.
See fig 4.
Vout nominal
105
˚C
10
%
1
Transient Response
Units
VDC
%
A
%
A
%
±4
%
±1
300 x Iout max
100
20
0.3
%
µF
ms
ms
%/˚C
Recovery within 1% in less than 500µs for a
50% load change at 0.1A/µs
Vout nominal at 10-40 Vin
For start up within 100 ms
Models & Ratings
Output Power
35
35
35
35
35
50
50
50
50
50
W
W
W
W
W
W
W
W
W
W
Output Voltage
3.3
5.0
12.0
15.0
28.0
3.3
5.0
12.0
15.0
28.0
VDC
VDC
VDC
VDC
VDC
VDC
VDC
VDC
VDC
VDC
Note: 1. Typical and measured at 28 V input
2
Output Current
10.00
7.00
2.90
2.30
1.30
15.00
10.00
4.20
3.33
1.80
A
A
A
A
A
A
A
A
A
A
Input Current(1)
No Load
Full Load
100 mA
1.49 A
100 mA
1.45 A
100 mA
1.41 A
100 mA
1.40 A
100 mA
1.48 A
100 mA
2.18 A
60 mA
2.15 A
70 mA
2.13 A
70 mA
2.13 A
120 mA
2.15 A
Efficiency(1)
Model Number
84%
86%
88%
88%
88%
82%
83%
84%
84%
83%
MTC3528S3V3
MTC3528S05
MTC3528S12
MTC3528S15
MTC3528S28
MTC5028S3V3
MTC5028S05
MTC5028S12
MTC5028S15
MTC5028S28
2. Total of voltage trim and remote sense is +10% max.
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General Specifications
Characteristic
Minimum
Efficiency
Typical
Maximum
85
Isolation Voltage
Switching Frequency
Frequency Synchronization
1500
1000
1000
Units
%
VDC
500
kHz
kHz
On = >3.5 V or open circuit; Off = <1.8 V
7.12
˚C/W
400
400
MTBF
Remote On/Off
Rth Case - Ambient
Notes & Conditions
See models table and performance graphs
(fig. 28-34)
Input to output
Input to case
Output to case
Fixed
See note.
>1 MHrs to MIL-HDBK-217F at 25 ˚C, GF
See table below
Note: Control signal TTL 0-5 VDC square wave. The trigger is the falling edge.
MTBF
Model
MTC3528S3V3
MTC3528S05
MTC3528S12
MTC3528S15
MTC3528S28
MTC5028S3V3
MTC5028S05
MTC5028S12
MTC5028S15
MTC5028S28
25 ˚C GB
2,124,329 Hrs
1,908,099 Hrs
2,528,046 Hrs
2,589,621 Hrs
2,222,434 Hrs
1,754,739 Hrs
2,160,519 Hrs
2,105,612 Hrs
2,086,654 Hrs
1,894,824 Hrs
40 ˚C GF
347,472 Hrs
326,642 Hrs
448,962 Hrs
456,578 Hrs
368,167 Hrs
269,617 Hrs
357,885 Hrs
351,150 Hrs
345,227 Hrs
290,456 Hrs
Environmental
Characteristic
Minimum
Typical
Maximum
Units
Operating Temperature
-55
100
˚C
Storage Temperature
-60
125
˚C
95
%
48
70000
75
Hrs
Ft
g
2000
Hz
40
g
Humidity
Salt Atmosphere
Altitude
Shock
Vibration
15
Bump
Notes & Conditions
Baseplate temperature. Start up is at -55 ˚C.
Full specification achievable at -40 ˚C
Relative humidity,
MIL-STD-810F Method 507.4
MIL-STD 810F Method 509.4
MIL-STD 810F Method 500.4
MIL-STD 810F Method 516.5
MIL-STD 810F Method 514.5,
table 514.5-VIII
2000 bumps in each axis
MIL-STD 810F Method 516.5
Electromagnetic Compatibility
EMC
Standard
Test Level
Conducted Emissions
MIL-STD-461E/F
DEF-STAN 59-411
EN55022
CE102
DCE01/DCE02
Class B
MIL-STD-1275A-D
Spikes
Surge
Ripple
Immunity
MIL-STD-704B-F
Conducted Susceptibility
Note: 0.5
MIL-STD-461E/F
DEF-STAN 62-5 part 6 iss.5
CS101, CS114,
CS115, CS116
Criteria
Notes & Conditions
When used in conjuction with
standard EMI filter, DSF and FSO
series
±250 V for 100 µs
100 V for 50 ms (see note)
14 VAC pk-pk
50 V for 10 ms
When used in conjuction with
standard surge protection module,
DSF and FSO series
When used in conjuction with
standard surge protection module,
DSF and FSO series
source impedance
3
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Synchronization
The internal switching frequency can be synchronized to an external source within the range 450 to 550 kHz. If two modules or more are
synchronized, they will run at the highest frequency. Connect synchronization pins directly together.
Sync
Converter 1
Load
Sync
Converter 2
Load
Figure 1. Synchronization Diagram
Thermal Warning
The thermal warning pin is an open collector signal with it’s emitter connected to -Vin. Transistor is off under normal conditions and is turned on when
trip threshold is exceeded typically 105 ˚C. The output of the module can be optionally turned off under a high temperature condition by connecting the
Thermal Warning (TW) pin directly to the Remote On/Off pin (Thermal Shutdown). The output will recover automatically when the case temperature is
reduced.
+Vin
+Vout
Remote On/Off
Thermal Warning (Tw)
-Vin
Load
-Vout
Figure 2. Thermal Shutdown Connection Diagram
Overload Protection
Figure 3. Over current Profile
After reaching the limit between 110% to 140% of Inom (current or power limit point), the output voltage will reduce down to 40-50% of nominal below
which the unit will enter trip and restart mode. Automatic recovery when overload is removed.
4
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Remote Sensing - Single Output Models Only
+Vout
R lead
+Sense
Load
Power Supply
-Sense
R lead
-Vout
Figure 4. Remote Sense Connection Diagram
Notes.
1. To use the remote sense connect +Sense pin to +Vout and Sense pin to Vout.
2. When remote sense is not in use leave pins not connected or connected locally to ±Vout.
Output Voltage Adjustment
To trim the output voltage of the single output versions up or down, connect the trim resistor either between the trim pin and +sense for trimming-up or
between trim pin and -sense for trimming-down. To trim the output voltage of the dual output versions up or down, connect the trim resistor either
between the trim pin and +Vout for trimming up or between trim pin and -Vout for trimming down. The trimming output voltage range is ±10% on 3V3
output voltage and -20% to +10% rated output voltage on others. See diagram & table below.
+Vin
+Vout
+Vin
+Vout
+Sense
+Vin
1
1
2
2
-Vin
-Vin
-Vout
-Vin
1-
-Vin
Vnom
Vrequired
-C
kΩ
-Vout
Trim down, dual output
Trim down, single output
2 = R-Load
3
= R Trim-down
Figure 6. Trim down
Trim down resistor=
A
2
3
-Sense
-Vout
Figure 5. Trim up
R trim-up =
Trim
2
1 = R Trim-up
Trim up resistor=
Com
2
3
Trim up, dual output
Trim up, single output
+Vout
2
Trim
Com
Trim
Trim
-Sense
-Vout
+Vin
+Vout
+Sense
R trim-down =
B
Vnom
Vrequired
-C
-1
kΩ
A
B
C
S3V3
9.826
6
5.1
S05
15
5
5.1
MTC35 & 50
S12
43.814
5.1
5.1
S15
56.056
5.1
5.1
S28
81.993
3.825
9.1
5
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Redundant Configuration
+
+Sense
Supply
Converter 1
-Sense
-
Load
+
+Sense
-Sense
-
Figure 7 - Redundant configuration
6
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EMC Connection Diagram and Performance Curve Examples
10 n
+Vin
+Vin
+Vout
+Vin
DSF200
-Vin
-Vin
+Vout
MTC50
-Vout
-Vin
Case
Load
-Vout
10 n
Figure 8. MTC5028S12 connection diagram and conducted emissions test results
7
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Efficiency - MTC35
Efficiency
Efficiency vs Load (Nominal Temperature)
95%
85%
75%
65%
55%
45%
35%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Output Load
10 Vin
28 Vin
40 Vin
Figure 9. MTC3528S05
Efficiency vs Load (Nominal Temperature)
100%
Efficiency
90%
80%
70%
60%
50%
10%
20%
30%
40%
50%
60%
70%
80%
Output Load
10 Vin
28 Vin
Figure 10. MTC3528S12
8
40 Vin
90%
100%
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Efficiency - MTC50
Efficiency vs Load (Nominal Temperature)
90%
Efficiency
80%
70%
60%
50%
40%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Output Load
10 Vin
28 Vin
40 Vin
Figure 12. MTC5028S05
Efficiency vs Load (Nominal Temperature)
90%
Efficiency
80%
70%
60%
50%
40%
10%
20%
30%
40%
50%
60%
70%
80%
90%
100%
Output Load
10 Vin
28 Vin
40 Vin
Figure 12. MTC5028S28
9
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Start Up - MTC35
10
Figure 13. MTC3028S05 (25 °C) full resistive load - 4 ms
Figure 14. MTC3028S12 (25 °C) full resistive load - 4.15 ms
Figure 15. MTC7528S05 (25 °C) full resistive load and capacitor
- 9.65 ms
Figure 16. MTC7528S12 (25 °C) full resistive load and capacitor
- 10.1 ms
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Start Up - MTC50
Figure 17. MTC5028S05 (25 °C) full resistive load - 11.3 ms
Figure 18. MTC5028S28 (25 °C) full resistive load - 11.85 ms
Figure 19. MTC5028S05 (25 °C) full resistive load and capacitor
- 11.8 ms
Figure 20. MTC5028S28 (25 °C) full resistive load and capacitor
- 12.2 ms
11
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Mechanical Details
MTC35
0.14
0.14
0.17
(3.56)
(3.56)
(4.50)
0.14
0.10
0.35
(2.54) (3.56)
(8.89)
2 x Mounting holes ø 0.102 (2.60)
5
4
3
0.50
(12.7)
7 x ø 0.031
(0.80)
7
8
9
6
0.75
(18.9)
ø 0.039
(1.00) pins 1, 2, 9 & 10
0.12
0.11
(3.05)
(2.79)
0.10
0.28
(2.54)
(7.11)
Bottom View
1.10
(27.9)
10
11
2
0.11 (2.79)
1
0.10
(2.54)
0.17 (4.50)
1.65 (41.80)
0.12 (3.05)
1.76 (44.70)
2.00 (50.80)
Pin Connections
Notes
1. Dimensions are in inches (mm)
2. Tolerance: ±0.02 inches (±0.5 mm)
3. Weight: 0.07 lb (35 g) approx
4. Materials & Finish:
Pin - Material:
Copper
Finish:
Nickel plated 2.5 µm Ni and
gold plated 0.3 µm Au.
Mounting Hole Diameter - 0.10 (2.7) clearance hole
Baseplate - Material:
Aluminium
Case - Material:
Non-conductive plastic
Pin
1
2
3
4
5
6
Single Output
+Vin
-Vin
Thermal Warning (TW)
Synchronization
Remote On/Off
Case
Pin
7
8
9
10
11
Single Output
Trim
-Sense
-Vout
+Vout
+Sense
MTC50
2.28 (58.00)
0.30
(7.62)
0.06
(1.53)
1.45
(36.80)
11
1.03
(26.20)
10
0.60
(15.24)
0.50
(12.70)
1.86 (47.20)
4 x Mounting holes
ø 0.122 (3.1)
Bottom View
9
8
7
2 x ø 0.059
(1.50)
0.12
(3.05)
1
2
3
4
5
6
0.14
0.48 (3.56)
(12.19)
9 x ø 0.040
(1.02)
0.30
(7.62)
0.18 min.
(4.60)
2.00 (50.80)
Notes
1. Dimensions are in inches (mm)
2. Tolerance: ±0.02 inches (±0.5 mm)
3. Weight: 0.14 lb (62 g) approx
12
Pin Connections
4. Materials & Finish:
Pin - Material: Copper
Finish: Nickel plated 2.5 µm Ni and gold plated
0.3 µm Au.
Mounting Hole Diameter - 0.126 (3.2)
clearance hole
Baseplate - Material: Aluminium
Case - Material: Non-conductive plastic
Pin
1
2
3
4
5
6
Single Output
+Vin
Remote On/Off
Synchronization
Thermal Warning (TW)
-Vin
Case
Pin
7
8
9
10
11
Single Output
-Vout
-Sense
Trim
+Sense
+Vout
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XP Power
990 Benecia Avenue, Sunnyvale, CA 94085
Phone
: +1 (408) 732-7777
Fax
: +1 (408) 732-2002
Email
: [email protected]
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Phone
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Fax
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Email
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Phone
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Fax
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Email
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Phone
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Fax
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Email
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North American Sales Offices
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Distributors
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15-Aug-13
MTC75 & 150
•
COTS Component for Defense & Avionics Applications
•
Single & Dual Output Models
•
Environmental Performance to MILSTD 810
•
10 to 50 VDC Transient Input Range
•
10 to 40 VDC Steady State Input Range
•
150 W Max Output Power
•
55 ˚C to 100 ˚C Operation
•
Cooling Plates and Mounting Holes for Easy Integration
•
Synchronous Rectification on Low Voltage Outputs
•
MILSTD 461 and DEFSTAN 5911
•
MILSTD 1275 and DEFSTAN 615
•
Frequency Synchronization
•
Thermal Warning Signal
The MTC75 & 150 are COTS DC-DC converters developed specifically for the defense and avionics market. These products have full military
specifications while offering the short lead-times and cost benefits of a COTS component.
The products offer excellent size, efficiency and EMC performance and the input range is designed to provide short term operation over 10–50 VDC to
enable the converter to work at full power through the dips and surges commonly seen in vehicle and aircraft applications.
Comprehensive control functions such as voltage trim, remote sense, remote on/off and frequency synchronization to an external source are standard
features. The MTC75 & 150 contain an over temperature warning signal that gives user control over the temperature shutdown function of the
converter.
When used in conjunction with the DSF and FSO input filter module the MTC75 & 150 are compliant to MIL-STD 461F CE/CS,
MIL-STD1275A-D and MIL-STD 704B-F as well as DEF-STAN-59-411 and DEF-STAN 61-5 part 6 issue 5.
xppower.com
Input Characteristics
Characteristic
Input Voltage
Transient Input Voltage Range
UVLO Turn On
UVLO Turn Off
Minimum
10
10
9.4
Typical
28
Maximum
40
50
Units
VDC
VDC
VDC
VDC
8.7
Notes & Conditions
Continuous
50 VDC for 100 ms
See models and ratings table, typical and
measured at 28 VDC input
Input Current
Inhibited Input Current
Inrush Current
Input Reverse Voltage Protection
4
40
mA
A
Peak value
External components required
Output Characteristics
Characteristic
Output Voltage
Output Voltage Adjustment
Output Current
Output Set Tolerance
Minimum Load
Single O/P
Dual O/P
Minimum
Typical
Maximum
-20
+10
±1.5
0
5
Vout ≤5V
Vout >5V
Overvoltage Protection
Overload Protection
Short Circuit Protection
Overtemperature Protection
50
100
140
140
Ripple & Noise
120
110
Remote Sense
Load Regulation
Units
VDC
%
A
%
A
%
No minimum load required
See note 3
mV
Pk-pk at 100% load and 20 MHz bandwidth
%
%
Vout nominal
At Vin nominal, see figure 3
Output turns off until the short is removed
Baseplate Temperature
Total voltage compensation. Includes Vtrim.
See fig 4.
105
˚C
10
%
1
2
Single O/P
Dual O/P
Notes & Conditions
See models and ratings table for details
-10% min voltage trim for 3V3 version
See models and ratings table for details
%
Vout nominal
Cross Regulation
±4
%
Dual outputs only. See note 3.
Transient Response
±4
%
Recovery within 1% in less than 500µs for a
50% load change at 0.1A/µs
±1
300 x Iout max
100
20
0.3
%
µF
ms
ms
%/˚C
Line Regulation
Maximum Output Capacitance
Start Up Time
Start Up Rise Time
Temperature Coefficient
Vout nominal at 10-40 Vin
For start up within 100 ms
Models & Ratings
Output Power
66
75
75
75
75
75
75
132
150
150
150
150
150
150
W
W
W
W
W
W
W
W
W
W
W
W
W
W
Output Voltage
3.3
5.0
12.0
15.0
28.0
±12.0
±15.0
3.3
5.0
12.0
15.0
28.0
±12.0
±15.0
VDC
VDC
VDC
VDC
VDC
VDC
VDC
VDC
VDC
VDC
VDC
VDC
VDC
VDC
Output Current
20.00 A
15.00 A
6.25 A
5.00 A
2.70 A
±3.13 A
±2.50 A
40.00 A
30.00 A
12.50 A
10.00 A
5.35 A
±6.25 A
±5.00 A
Note: 1. Typical and measured at 28 V input
2. Total of voltage trim and remote sense is +10% max.
2
(4)
(4)
(4)
(4)
Input Current(1)
No Load
120
130
60
40
75
220
230
120
147
70
75
170
250
275
mA
mA
mA
mA
mA
mA
mA
mA
mA
mA
mA
mA
mA
mA
Full Load
2.87
3.19
3.19
3.19
3.23
3.23
3.27
5.82
6.38
6.38
6.30
6.30
6.38
6.31
A
A
A
A
A
A
A
A
A
A
A
A
A
A
Efficiency(1)
82%
84%
84%
84%
83%
83%
82%
81%
84%
84%
86%
86%
84%
85%
Model Number
MTC7528S3V3
MTC7528S05
MTC7528S12
MTC7528S15
MTC7528S28
MTC7528D12(3)
MTC7528D15(3)
MTC15028S3V3
MTC15028S05
MTC15028S12
MTC15028S15
MTC15028S28
MTC15028D12(3)
MTC15028D15(3)
3. Minimum load of 5% required on one output for ±4% regulation on the other.
4. Each output can deliver 70% of the combined current when other output
delivers between 5% and 30%.
xppower.com
General Specifications
Characteristic
Minimum
Efficiency
Typical
Maximum
84
Isolation Voltage
Switching Frequency
Frequency Synchronization
Units
%
1500
1000
1000
VDC
450
550
kHz
kHz
On = >3.5 V or open circuit; Off = <1.8 V
7.12
˚C/W
450
MTBF
Remote On/Off
Rth Case - Ambient
Notes & Conditions
See models table and performance graphs
(fig. 28-34)
Input to output
Input to case
Output to case
Fixed
See note.
>1 MHrs to MIL-HDBK-217F at 25 ˚C, GF
See table below
Note: Control signal TTL 0-5 VDC square wave. The trigger is the falling edge.
MTBF
Model
MTC15028S3V3
MTC15028S05
MTC15028S12
MTC15028S15
MTC15028S28
MTC15028D12
MTC15028D15
25 ˚C GF
1,078,632
1,162,633
1,316,925
1,322,349
1,367,231
1,498,551
1,442,550
40 ˚C GF
158,847
172,796
196,186
199,100
209,016
264,559
258,790
Note: 20 °C and 40 °C are assumed to be baseplate temperatures
Environmental
Characteristic
Minimum
Typical
Maximum
Units
Operating Temperature
-55
100
˚C
Storage Temperature
-60
125
˚C
95
%
48
70000
75
Hrs
Ft
g
2000
Hz
40
g
Humidity
Salt Atmosphere
Altitude
Shock
Vibration
15
Bump
Notes & Conditions
Baseplate temperature. Start up is at -55 ˚C.
Full specification achievable at -40 ˚C
Relative humidity,
MIL-STD-810F Method 507.4
MIL-STD 810F Method 509.4
MIL-STD 810F Method 500.4
MIL-STD 810F Method 516.5
MIL-STD 810F Method 514.5,
table 514.5-VIII
2000 bumps in each axis
MIL-STD 810F Method 516.5
Electromagnetic Compatibility
EMC
Standard
Test Level
Conducted Emissions
MIL-STD-461E/F
DEF-STAN 59-411
EN55022
CE102
DCE01/DCE02
Class B
MIL-STD-1275A-D
Spikes
Surge
Ripple
Immunity
MIL-STD-704B-F
Conducted Susceptibility
Note: 0.5 Ω source impedance
MIL-STD-461E/F
DEF-STAN 62-5 part 6 iss.5
CS101, CS114,
CS115, CS116
Criteria
Notes & Conditions
When used in conjuction with
standard EMI filter, DSF and FSO
series
±250 V for 100 µs
100 V for 50 ms (see note)
14 VAC pk-pk
50 V for 10 ms
When used in conjuction with
standard surge protection module,
DSF and FSO series
When used in conjuction with
standard surge protection module,
DSF and FSO series
3
xppower.com
Synchronization
The internal switching frequency can be synchronized to an external source within the range 450 to 550 kHz. If two modules or more are
synchronized, they will run at the highest frequency. Connect synchronization pins directly together.
Sync
Converter 1
Load
Sync
Converter 2
Load
Figure 1. Synchronization Diagram
Thermal Warning
The thermal warning pin is an open collector signal with it’s emitter connected to -Vin. Transistor is off under normal conditions and is turned on when
trip threshold is exceeded typically 105 ˚C. The output of the module can be optionally turned off under a high temperature condition by connecting the
Thermal Warning (TW) pin directly to the Remote On/Off pin (Thermal Shutdown). The output will recover automatically when the case temperature is
reduced.
+Vin
+Vout
Remote On/Off
Thermal Warning (Tw)
-Vin
Load
-Vout
Figure 2. Thermal Shutdown Connection Diagram
Overload Protection
Figure 3. Over current Profile
After reaching the limit between 110% to 140% of Inom (current or power limit point), the output voltage will reduce and the unit will enter trip and
restart mode. Automatic recovery when overload is removed.
4
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Remote Sensing - Single Output Models Only
+Vout
R lead
+Sense
Load
Power Supply
-Sense
R lead
-Vout
Figure 4. Remote Sense Connection Diagram
Notes.
1. To use the remote sense connect +Sense pin to +Vout and Sense pin to Vout.
2. When remote sense is not in use leave pins not connected or connected locally to ±Vout.
Output Voltage Adjustment
To trim the output voltage of the single output versions up or down, connect the trim resistor either between the trim pin and +sense for trimming-up or
between trim pin and -sense for trimming-down. To trim the output voltage of the dual output versions up or down, connect the trim resistor either
between the trim pin and +Vout for trimming up or between trim pin and -Vout for trimming down. The trimming output voltage range is ±10% on 3V3
output voltage and -20% to +10% rated output voltage on others. See diagram & table below.
+Vin
+Vout
+Vin
+Vout
+Sense
+Vin
1
1
2
2
-Vin
-Vin
3
-Vout
3
-Vin
-Vin
Vnom
Vrequired
-C
kΩ
2 = R-Load
3
= R Trim-down
Figure 6. Trim down
Trim down resistor=
A
1-
2
-Vout
Trim down, dual output
Trim down, single output
Figure 5. Trim up
R trim-up =
Trim
-Sense
-Vout
1 = R Trim-up
Trim up resistor=
Com
2
2
Trim up, dual output
Trim up, single output
+Vout
2
Trim
Com
Trim
Trim
-Sense
-Vout
+Vin
+Vout
+Sense
R trim-down =
B
Vnom
Vrequired
-C
-1
kΩ
A
B
C
S3V3
9.826
6
5.1
S05
15
5
5.1
S12
21.907
2.55
5.1
S15
28.028
2.55
5.1
S28
54.622
2.55
9.1
D12
46.446
2.55
9.1
D15
58.524
2.55
9.1
5
xppower.com
Parallel Configuration - Single Output Models Only
+
Share
Supply
Converter 1
-
Load
+
Share
Converter 2
-
Figure 7. Parallel configuration for current sharing
Notes.
Up to 4 converters to share withint 90% max power.
Redundant Configuration
+
+Sense
Supply
Converter 1
-Sense
-
Load
+
+Sense
-Sense
-
Figure 8 - Redundant configuration
6
xppower.com
Derating Curves
The operating case temperature range of MTC75 & 150 series is -40 ˚C to +100 ˚C (start up at -55 ˚C). When operating the MTC series, proper derating
or conduction cooling is required. The maximum case temperature under any operating condition should not exceed 100 ˚C.
Power Dissipated vs Ambient Temperature and Air Flow
Figure 9. Derating curve of MTC75 & 150 series without heatsink
Example
The minimum airflow required for part number MTC7528S12 operating at nominal line, an output current of 6.25 A and a maximum ambient
temperature of 40 ˚C can be determined using the formula below
Solution:
Determine Power dissipation (Pd): Pd = Pi -Po = Po (1η)/η
Pd = 12 x 6.25 x (1-0.84) / 0.84 = 14.29
Air Flow Rate
Typical Rca
Natural Convection
20 LFM (0.1 ms)
7.12 ˚C/W
6.21
5.17
4.29
3.64
2.96
2.53
2.37
2.19
Maximum case temperature:
Tc = Ta + ∆T = 92 °C
Where:
Rca is thermal resistance from case to ambient.
100
200
300
400
500
600
700
800
Ta is ambient temperature and Tc is the case temperature.
Thermal Resistance vs Air Flow
Determine Airflow:
Given: Pd = 14.29 W and Ta = 40 ˚C
Check above Power derating curve: Minimum airlfow = 400 LFM (2.0 m/s)
Verification:
Maximum temperature rise ∆T = Pd x Rca = 14.29 x 3.64 = 52 ˚C
LFM
LFM
LFM
LFM
LFM
LFM
LFM
LFM
(0.5
(1.0
(1.5
(2.0
(2.5
(3.0
(3.5
(4.0
ms)
ms)
ms)
ms)
ms)
ms)
ms)
ms)
˚C/W
˚C/W
˚C/W
˚C/W
˚C/W
˚C/W
˚C/W
˚C/W
7
xppower.com
Derating Curves Continued
Power Dissipated vs Ambient Temperature and Air Flow with Transverse Heatsink (Part number ICH-HT5K91)
Figure 10. Derating curve of MTC75 & 150 series with heatsink
Example
What is the minimum airflow necessary for an MTC15028S05 operating at nominal line, an output current of 30 A, and a maximum ambient
temperature of 40 ˚C?
Solution:
Determine Power dissipation (Pd): Pd = Pi -Po = Po (1η)/η
Pd = 5 x 30 x x (1-0.84) / 0.84 = 28.57 W
Determine Airflow:
Given: Pd = 28.57 W and Ta = 40 ˚C
Check above Power deraing curve: Minimum airlfow = 100 LFM (0.5 m/s)
Air Flow Rate
Typical Rca
Natural Convection
20 LFM (0.1 ms)
3.0 ˚C/W
1.44
1.17
1.04
0.95
Maximum case temperature:
Tc = Ta + ∆T = 81.14 ˚C <100 ˚C
100
200
300
400
Where:
Rca is thermal resistance from case to ambient.
Thermal Resistance vs Air Flow
Verification:
Maximum temperature rise ∆T = Pd x Rca = 28.57 x 1.44 = 41.14 ˚C
Ta is ambient temperature and Tc is the case temperature.
8
LFM
LFM
LFM
LFM
(0.5
(1.0
(1.5
(2.0
ms)
ms)
ms)
ms)
˚C/W
˚C/W
˚C/W
˚C/W
xppower.com
2.00 (50.8)
4-ø 0.39
(9.91)
Rca:
3.00 ˚C/W
1.44 ˚C/W
1.17 ˚C/W
1.04 ˚C/W
0.95 ˚C/W
2.28
(58.0)
1.89
(48.2)
(typ.),
(typ.),
(typ.),
(typ.),
(typ.),
natural convection
at 100 LFM
at 200 LFM
at 300 LFM
at 400 LFM
2.40 (61.0)
1.0
(25.4)
0.10
(2.7)
Figure 11. Transverse Heat Sink (Part Number ICH HEATSINK)
9
xppower.com
EMC Connection Diagram and Performance Curve Examples
4n7
4n7
+Vin
+Vin
1.3 mH
+Vout
MTC150
-Vin
-Vin
4n7
Case
Load
-Vout
4n7
Figure 12. MTC15028S05 connection diagram and conducted emissions test results
10
xppower.com
EMC Connection Diagram and Performance Curve Examples
4n7
+Vin
+Vin
+Vout
+Vin
FSO461
-Vin
-Vin
-Vout
+Vout
+Vin
DSF500
-Vin
-Vout
+Vout
MTC150
-Vin
Case
Load
-Vout
4n7
Figure 13. MTC15028S05 connection diagram and conducted emissions test results
11
xppower.com
EMC Connection Diagram and Performance Curve Examples
4n7
4n7
+Vin
+Vin
1.6 mH
+Vout
MTC150
-Vin
-Vin
4n7
Case
Load
-Vout
4n7
Figure 14. Connection Diagram MTC15028S28 connection diagram and conducted emissions test results
12
xppower.com
EMC Connection Diagram and Performance Curve Examples
4n7
4n7
+Vin
+Vin
+Vout
+Vin
FSO461
C
-Vin
+Vin
+Vout
MTC150
-Vout
-Vin
Case
Load
-Vout
4n7
4n7
Figure 15. MTC15028S28 connection diagram and conducted emissions test results
13
xppower.com
Efficiency - MTC75
Efficiency vs Load (Nominal Temperature)
95%
95%
85%
85%
Efficiency(%)
Efficiency(%)
Efficiency vs Load (Nominal Temperature)
75%
65%
55%
75%
65%
55%
10%
20% 30% 40% 50%
45%
60% 70% 80% 90% 100%
10%
20% 30% 40% 50%
Output Load(%)
10Vin
28Vin
60% 70% 80% 90% 100%
Output Load(%)
40Vin
10Vin
Figure 16. MTC7528S05
28Vin
Figure 17. MTC7528S28
Efficiency vs Load (Nominal Temperature)
Efficiency vs Load (Nominal Temperature)
90%
90%
80%
80%
Efficiency(%)
Efficiency(%)
y
70%
60%
50%
(
p
)
70%
60%
50%
40%
10%
20% 30% 40% 50%
60% 70% 80% 90% 100%
40%
10%
20%
30%
40%
Output Load(%)
10Vin
28Vin
Figure 18. MTC7528D12
14
40Vin
50%
60%
70%
80%
Output Load(%)
40Vin
10Vin
28Vin
Figure 19. MTC7528D15
40Vin
90% 100%
xppower.com
Efficiency - MTC150
Efficiency vs Load (Nominal Temperature)
Efficiency vs Load (Nominal Temperature)
95%
95%
90%
Efficiency(%)
Efficiency(%)
85%
80%
75%
85%
75%
65%
55%
70%
45%
65%
10%
20% 30% 40% 50%
10%
20% 30% 40% 50%
60% 70% 80% 90% 100%
10Vin
Output Load(%)
10Vin
28Vin
28Vin
40Vin
40Vin
Figure 20. MTC15028S05
Figure 21. MTC15028S28
Efficiency vs Load (Nominal Temperature)
Efficiency vs Load (Nominal Temperature)
95%
90%
80%
Efficiency(%)
Efficiency(%)
60% 70% 80% 90% 100%
Output Load(%)
70%
60%
85%
75%
65%
55%
50%
40%
10%
20% 30% 40% 50%
60% 70% 80% 90% 100%
10%
20%
30%
40%
Output Load(%)
10Vin
28Vin
50%
60%
70%
80%
90% 100%
Output Load(%)
40Vin
Figure 22. MTC15028D12
10Vin
28Vin
40Vin
Figure 23. MTC15028D15
15
xppower.com
Start Up - MTC75
16
Figure 24. MTC7528S05 (25 °C) full resistive load - 11.9 ms
Figure 25. MTC7528S28 (25 °C) full resistive load - 11.9 ms
Figure 26. MTC7528S05 (25 °C) full resistive load and capacitor
- 12.1 ms
Figure 27. MTC7528S28 (25 °C) full resistive load and capacitor
- 12.3 ms
xppower.com
Start Up - MTC150
Figure 28. MTC15028S05 (25 ˚C) with full resistive load - 20.9 ms
Figure 29. MTC15028S05 (25 ˚C) with full resistive load and capacitor
- 22.2 ms
Figure 30. MTC15028S28 (25 ˚C) with full resistive load - 20.4 ms
Figure 31. MTC15028S28 (25 ˚C) with full resistive load and capacitor
- 28.5 ms
17
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Dual Output Cross Regulation
MTC7528D12 - Iout1=70% combined load (4.38A); Iout2=variable (5% to 30%)
12.6
12.4
Vout (V)
12.2
12.0
11.8
11.6
11.4
11.2
0.3125A
0.625A
0.9375A
1.25A
1.5625A
1.875A
Iout 1 (A)
Vout1@Vin=10V
Vout1@Vin=28V
Vout1@Vin=40V
Vout2@Vin=10V
Vout2@Vin=28V
Vout2@Vin=40V
Figure 32. MTC7528D12 cross regulation
MTC7528D12 - Iout2=70% combined load (4.38A); Iout1=variable (5% to 30%)
13.0
12.5
Vout (V)
12.0
11.0
11.5
10.5
0.3125A
0.625A
0.9375A
1.25A
1.5625A
Iout 2 (A)
Vout1@Vin=10V
Vout1@Vin=28V
Vout1@Vin=40V
Vout2@Vin=10V
Vout2@Vin=28V
Vout2@Vin=40V
Figure 33. MTC7528D12 cross regulation
18
1.875A
xppower.com
Dual Output Cross Regulation
MTC15028D12 - Iout1 = 70% combined load (8.75 A); Iout2 = variable (5% to 30%)
Figure 34. MTC15028D12 cross regulation
MTC15028D12 - Iout2 = 70% combined load (8.75 A); Iout1 = variable (5% to 30%)
Figure 35. MTC15028D12 cross regulation
19
xppower.com
Mechanical Details
4 x Mounting holes
ø 0.126 (3.2)
1.30 (33.0)
11
1.40
(35.56)
0.60
(15.24)
12
10
1
9
2
Bottom View
8*
2.00
(50.80)
3
7
4
6
5
2.40
(61.00)
8 x 0.04 (1.02)
1.90 (48.2)
4 x 0.08 (2.03)
2.28 (57.9)
4-Pl.
0.08 (2.03)
0.50 (12.7)
8-Pl.
0.04 (1.02)
0.18 min (4.6)
*On dual output versions, Pin 8 is 0.08 (2.03) Ø
Pin Connections
Pin
1
2
3
4
5
6
Single Output
+Vin
Remote On/Off
Thermal Warning (TW)
Case
-Vin
-Vout
Dual Output
+Vin
Remote On/Off
Thermal Warning (TW)
Case
-Vin
-Vout
Pin
7
8*
9
10
11
12
Single Output
-Sense
Trim
+Sense
+Vout
Share
Synchronization
Dual Output
Trim
Common
No Pin
+Vout
No Pin
Synchronization
Notes
1. Dimensions are in inches (mm)
2. Tolerance: ±0.02 inches (±0.5 mm)
3. Weight: 0.28 lb (128 g) approx
4. Materials & Finish:
Pin Mounting Hole Diameter Baseplate Case -
20
Material:
Finish:
Material:
Material:
Copper
Nickel plated 2.5 µm Ni and gold
plated 0.3 µm Au.
0.126 (3.2) clearance hole
Aluminium
Non-conductive plastic
www.xppower.com
North American HQ
XP Power
990 Benecia Avenue, Sunnyvale, CA 94085
Phone
: +1 (408) 732-7777
Fax
: +1 (408) 732-2002
Email
: [email protected]
European HQ
XP Power
Horseshoe Park, Pangbourne, Berkshire, RG8 7JW
Phone
: +44 (0)118 984 5515
Fax
: +44 (0)118 984 3423
Email
: [email protected]
German HQ
XP Power
Auf der Höhe 2, D-28357 Bremen, Germany
Phone
: +49 (0)421 63 93 3 0
Fax
: +49 (0)421 63 93 3 10
Email
: [email protected]
Asian HQ
XP Power
401 Commonwealth Drive, Haw Par Technocentre,
Lobby B #02-02, Singapore 149598
Phone
: +65 6411 6900
Fax
: +65 6741 8730
Email
: [email protected]
Web
: www.xppowerchina.com /
www.xppower.com
North American Sales Offices
Toll Free ....................+1 (800) 253-0490
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Distributors
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12-Oct-12
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