MSA/MGA Single and Dual DC-DC Converters

Crane Aerospace & Electronics Power Solutions
MSA/MGA Single and Dual DC-DC Converters
28 Volt input – 5 Watt
Features
Small size, 1.16 in2 (7.46 cm2) - MSA
Surface mount package - MGA
• –55° to +125°C operation
• 16 to 40 VDC input
models
• 50 V for 50 ms transient protection
VDC Output
• Fully isolated
• Fixed high frequency switching
SINGLE
• Indefinite short circuit protection
5
±5
5.2 (MSA only)
±12
12
±15
• Inhibit function
• Up to 76% efficiency
DUAL
15
Description
The Interpoint™ MSA Series™ and MGA Series™ of dc-dc
converters provide up to 5 watts of output power over the full
military temperature range with up to 76% efficiency. Thick-film
hybrid techniques provide military/aerospace reliability levels and
optimum miniaturization.
The converters are offered with standard screening, “ES”
screening, or fully compliant to “883” MIL-PRF-38534 Class H
screening. Standard microcircuit drawings (SMD) are available.
See “Table 12: Element Evaluation” on page 14 and “Table 13:
Environmental Screening” on page 15 for screening options
and descriptions.
Converter Design
The converters are switching regulators that use a flyback
converter design with a constant switching frequency of 550 kHz
typical. They are regulated, isolated units using a pulse width
modulated topology and are built as high reliability thick-film
hybrids. Isolation between input and output circuits is provided
with a transformer in the forward power path and an optical
link in the feedback control loop. Excellent input line transient
response and audio rejection is achieved by an advanced feedforward compensation technique. Negative output regulation is
maintained by tightly coupled magnetics. Up to 4 watts, 80% of
the total output power, is available from either output, provided
that the opposite output is simultaneously carrying 20% of the
total power in order to maintain the specified regulation on the
negative output. A predictable current limit is accomplished by
Crane Aerospace & Electronics
Power Solutions – Interpoint Products
10301 Willows Rd. NE, Redmond, WA 98052
+1.425.882.3100 • [email protected]
www.craneae.com/interpoint
direct monitoring of the output load current, which results in a
constant current output. Internal input and output filters eliminate
the need for external capacitors for stable operation. Output filter
examples in “Figure 3: Low Noise Output Filter MSA and MGA
Single Output Models” on page 3 and “Figure 4: Low Noise
Output Filter MSA and MGA Dual Output Models” on page 3
provide suggested solutions for systems where very low output
ripple is required.
Wide Voltage Range
The MSA converters are designed to provide full power operation
over a full 16 to 40 VDC voltage range. Operation below 16 volts,
including MIL-STD-704E emergency power conditions is possible
with derated power. Low-line drop out graphs, “Figure 17” on
page 10 and “Figure 23” on page 11, graphs provide more
information.
Improved Dynamic Response
The feed-forward compensation system ­provides excellent
dynamic response and noise rejection. Audio rejection is typically
50 dB. The minimum to maximum step line transient response is
typically less than 1%.
Page 1 of 15
MSA_MGA Rev AC - 2013.06.13
Crane Aerospace & Electronics Power Solutions
MSA/MGA Single and Dual DC-DC Converters
28 Volt input – 5 Watt
Inhibit Function
Packaging
The converter is inhibited when the inhibit pin is pulled below
0.8 V and enabled when its inhibit pin is left floating. An external
inhibit interface should be capable of pulling the converter’s
inhibit pin below 0.8 V while sinking the maximum inhibit current
and also allowing the inhibit pin to float high to enable the
converter. A voltage should not be applied to the inhibit pin. The
open circuit output voltage associated with the inhibit pin is 9 to
11 V. In the inhibit mode, a maximum of 4 mA must be sunk from
the inhibit pin. See “Figure 2: Inhibit Interface MSA and MGA” on
page 3.
MGA - Surface mount package
The surface mount MGA dc-dc converters can be mounted with
pick-and-place equipment or manually. See “Figure 28: MGA
Gull-Wing Solder Pad Layout” on page 13 for more information.
The inhibit feature can be used to disable internal switching and
inhibit the unit’s output. Inhibiting in this manner results in low
standby current and no generation of switching noise.
Undervoltage Lockout and Transient
Protection
Undervoltage lockout helps keep system current levels low during
initialization or re-start operations. They can withstand short term
transients of up to 50 volts without damage. A low voltage lockout
feature keeps the converter shutdown below approximately 13
VDC to ensure smooth initialization.
MSA - Down-leaded package
The MSA Series converters are packaged in hermetically sealed,
projection-welded metal cases which provide EMI/RFI shielding.
The small size, 1.075 x 1.075 x 0.270 inches (27.31 x 27.31 x
6.86 mm), saves space and weight in critical applications. See
“Figure 26: MSA Case Dimensions” on page 12.
Internal components are soldered with SN96 (melting
temperature 221°C) to prevent damage during reflow. Maximum
reflow temperature for surface mounting the MGA converter is
220°C for a maximum of 30 seconds. SN60, 62, or 63 are the
recommended types of solder. Hand soldering should not exceed
300°C for 10 seconds per pin.
The hermetically sealed metal cases are available in two different
lead configurations. See “Figure 27: MGA Case Dimensions” on
page 13 and “Figure 28: MGA Gull-Wing Solder Pad Layout”
on page 13.
MIL-STD-461
Use our FMSA-461 (down-leaded) or our FMGA-461 (surface
mount) EMI filter to pass the CE03 requirements of
MIL-STD-461C.
Positive
Input
Inhibit
+
Error
Amp VR
PWM
Control
+
Input
Common
Case
Ground
Isolated
Feedback
Page 2 of 15
MSA_MGA Rev AC - 2013.06.13
Output
Common
Negative
Output
= Dual Output
Figure 1: Block Diagram MSA and MGA
www.craneae.com/interpoint
Positive
Output
Crane Aerospace & Electronics Power Solutions
MSA/MGA Single and Dual DC-DC Converters
28 Volt input – 5 Watt
Positive
Input
12 k
5k
400
Inhibit
50 k
200 pF
10 K
3.9 K
10V
2N3904
Vcc
10 k
Input
Common
Figure 2: Inhibit Interface MSA and MGA
EMI Filter
From input
power source
Positive
Input
Input
Common
T1
Positive
Output
Positive
Positive
Input
Output
Case
Output Common
Input
Output
Common
Common
+
C2
C3 To Load
Case
T1
C1
Figure 3: Low Noise Output Filter MSA and MGA Single Output Models
The filter suggestions in Figure 3 and Figure 4
will further reduce the output ripple for systems
requiring very low output noise.
C1 = 0.27 µF ceramic capacitor, 500 V
C2 = C4 = 6.8 µF tantalum capacitor
C3 = C5 = 0.27 µF ceramic capacitor
Single output:
T1 = 15T #28 AWG winding on toroid, 5 m = 5000
EMI Filter
From input
power source
Positive
Input
Positive
Output
Input
Output
Common Common
Positive
Positive
Input
Output
Case
Output Common
Input
Common
Dual output:
T2 = 10T #28 AWG winding on toroid, 5 m = 5000
T2
C2+
C4+
Negative
Output
Case
C1
C3
C5
To Loads
T2
Figure 4: Low Noise Output Filter MSA and MGA Dual Output Models
www.craneae.com/interpoint
Page 3 of 15
MSA_MGA Rev AC - 2013.06.13
Crane Aerospace & Electronics Power Solutions
MSA/MGA Single and Dual DC-DC Converters
28 Volt input – 5 Watt
Pin
Pin Out MSA Models
Single Output
Dual Output
Pin
1
Positive Output
Positive Output
2
Output Common
Output Common
Pin Out MGA Models
Single Output
Dual Output
1
Inhibit
Inhibit
2, 3
Positive Input
Positive Input
3
No Connection
Negative Output
4
No Connection
No Connection
4
No Connection
No Connection
5, 6
Input Common
Input Common
5
Inhibit
Inhibit
7, 8
Case Ground
Case Ground
6
Positive Input
Positive Input
9, 10
No Connection
No Connection
7
Input Common
Input Common
11, 12
Positive Output
Positive Output
8
Case Ground
Case Ground
13
Positive Output
Output Common
14
Output Common
Output Common
15, 16
Output Common
Negative Output
17, 18
No Connection
No Connection
19, 20
Case Ground
Case Ground
Table 1: MSA Pin Out
To meet specified performance for the MGA, all pins must be
connected except “No Connection” pins and Inhibit pin.
Table 3: MGA Pin Out
1
2
3
4
5
BOTTOM VIEW
MSA
8
7
6
TOP VIEW
MGA
20
19
18
17
16
15
14
13
12
11
Triangle in upper left corner of cover indicates pin one.
See “Figure 26: MSA Case Dimensions” on page 12.
Inhibit
∇
1
2
3
4
5
6
7
8
9
10
Squared corner and dot on top
of package indicate pin one.
See “Figure 27: MGA Case Dimensions” on page 13.
Figure 5: MSA Pin Out Bottom View
Figure 6: MGA Pin Out Top View
MSA Pins not in Use
MGA Pins not in Use
Leave unconnected
“No Connection” pin
Leave unconnected
Inhibit
“No Connection” pins
Table 2: MSA Pins not in Use
www.craneae.com/interpoint
Leave unconnected
Page 4 of 15
MSA_MGA Rev AC - 2013.06.13
Connect to case ground for best
EMI performance.
Table 4: MGA Pins not in Use
Crane Aerospace & Electronics Power Solutions
MSA/MGA Single and Dual DC-DC Converters
28 Volt input – 5 Watt
SMD Numbers
SMD Numbers
MSA Similar Part
Standard Microcircuit
Drawing (SMD)
MGA Similar Part
Standard Microcircuit
Drawing (SMD)
5962-9309201hxc
MSA2805S/883
5962-9309201hZc
MGA2805SZ/883
5962-0251301hxc
MSA285R2S/883
5962-9309301HZC
MGA2812SZ/883
5962-9309301HXC
MSA2812S/883
5962-9309401HZC
MGA2815SZ/883
5962-9309401HXC
MSA2815S/883
5962-0052201HZC
MGA2805DZ/883
5962-0052201HXC
MSA2805d/883
5962-9308901hZc
MGA2812DZ/883
5962-9308901hxc
MSA2812D/883
5962-9309001hZc
MGA2815DZ/883
5962-9309001hxc
MSA2815D/883
For exact specifications for an SMD product, refer
to the SMD drawing. SMD numbers are shown for
the surface mount gull-wing case. For the straightlead case, replace the Z (HZC) in the SMD with a Y
(HYC). SMDs can be downloaded from: http://www.
landandmaritime.dla.mil/programs/smcr
For exact specifications for an SMD product, refer to
the SMD drawing. SMDs can be downloaded from:
http://www.landandmaritime.dla.mil/programs/smcr
Table 5: MSA SMD Numbers
Table 6: MGA SMD Numbers
model numbering key
model numbering key
MSA
Base Model
28 12
Base Model
Input Voltage
D / 883
28 12 S
Z / 883
Output Voltage
Number of Outputs
(S = single, D = dual)
Input Voltage
Output Voltage
(R = decimal point, 5R2 = 5.2 Vout)
Gull Wing Lead Option
(Straight leaded case has no designator
in this position.)
Number of Outputs
(S = single, D = dual)
Screening
(Standard screening has no designator
in this position.)
Screening
(Standard screening has no designator
in this position.)
Figure 7: MSA Model Numbering Key
To
MGA
Figure 8: MGA Model Numbering Key
model Number Options
determine the model number enter one option from each category in the form below.
Category
Base Model and
Input Voltage
Output Voltage 1
Options
MSA
05, 5R2, 12, 15
MGA
05, 12, 15
Fill in for
Model #
__________
M A
__________
Case Options 3
Screening 4
S
MSA – down-leaded: leave blank
(standard, leave blank)
D
MGA – straight leads: leave blank
ES
MGA – gull wings: Z
883
Number of
Outputs 2
/
Notes:
1. 5R2 is a 5.2 output model.
2. Number of Outputs: S is a single output and D is a dual output
3. Case Options: For the MSA down-leaded case leave the case option blank. For the MGA straight-lead case, leave the case option blank. For the MGA, surface mount
gull-wing case, insert the letter “Z” in the case option position.
4. Screening: For standard screening leave the screening option blank. For other screening options, insert the desired screening level. For more information see
“Table 11: Element Evaluation” on page 12 and “Table 12: Environmental Screening” on page 13.
Table 7: MSA and MGA Model Number Options
www.craneae.com/interpoint
Page 5 of 15
MSA_MGA Rev AC - 2013.06.13
Crane Aerospace & Electronics Power Solutions
MSA/MGA Single and Dual DC-DC Converters
28 Volt input – 5 Watt
Table 8: Operating Conditions, All Models : 25°C TC, 28 VDC VIN, 100% load, unless otherwise specified.
All Models
PARAMETER
CONDITIONS
LEAD SOLDERING TEMPERATURE
10 seconds max. Per Lead
MGA, Surface Mount
Solder Reflow 2
MIN
TYP
MAX
UNITS
—
—
300
°C
SN 60, 62 or 63 Recommended
STORAGE TEMPERATURE 1
220°C for max. of 30 seconds
-65
—
+150
°C
CASE OPERATING
FULL POWER
-55
—
+125
TEMPERATURE
ABSOLUTE 1
-55
—
+135
DERATING OUTPUT POWER/CURRENT 1
LINEARLY
From 100% at 125°C to 0% at 135°C
ISOLATION, input to output,
Any pin to case except case Pin
@ 500 VDC at 25°C
100
—
°C
—
Megohms
Input to Output Capacitance 1
—
50
—
pF
UnderVoltage Lockout 1
—
13
—
V
—
115%
­—
%
CURRENT LIMIT
1, 3
AUDIO REJECTION
% OF FULL LOAD
1
—
50
—
dB
400
—
600
kHz
inhibit pin pulled low —
­—
0.8
VDC
INHIBIT PIN SOURCE CURRENT 1
—
—
4
mA
CONVERSION FREQUENCY
FREE RUN -55° TO +125°C
INHIBIT ACTIVE LOW (OUTPUT DISABLED)
Do not apply a voltage to the inhibit pin. 4
REFERENCED TO
INHIBIT ACTIVE HIGH (OUTPUT ENABLED)
Do not apply a voltage to the inhibit pin. 4
INPUT COMMON
INHIBIT PIN CONDITION
OPEN PIN VOLTAGE 1
9
OPEN COLLECTOR OR
UNCONNECTED
—
11
V
Notes:
1. Guaranteed by qualification test and/or analysis. Not an in-line test.
2. See “Figure 28: MGA Gull-Wing Solder Pad Layout” on page 13 for more information
3. Dual outputs: The over-current limit will trigger when the sum of the currents from both outputs reaches 115% (typical value) of the maximum
rated “total” current of both outputs.
4. An external inhibit interface should be used to pull the inhibit low or leave it floating. The inhibit pin can be left unconnected if not used.
www.craneae.com/interpoint
Page 6 of 15
MSA_MGA Rev AC - 2013.06.13
Crane Aerospace & Electronics Power Solutions
MSA/MGA Single and Dual DC-DC Converters
28 Volt input – 5 Watt
Table 9: Electrical Characteristics: -55°C to +125°C TC, 28 VDC Vin, 100% load, free run, unless otherwise specified.
MSA2805S
MGA2805S
MSA/MGA single output models
PARAMETER
CONDITIONS
OUTPUT VOLTAGE
OUTPUT CURRENT
OUTPUT POWER
10 kHz - 2 MHz
TYP
(no MGA285R2S)
MAX
MIN
TYP
MAX
UNITS
4.80
5.00
5.20
4.99
5.20
5.40
VDC
0
—
1000
0
—
962
mA
0
—
5
0
—
5
W
TC = 25°C
—
125
350
—
110
335
—
—
525
—
—
525
VIN = 16 to 40 VDC
—
10
50
—
10
50
TC = -55°C TO +125°C
LINE REGULATION
MIN
Vin = 16 to 40 VDC
Vin = 16 to 40 VDC
OUTPUT RIPPLE
MSA285R2S
mV p-p
mV
LOAD REGULATION
No LOAD TO FULL
—
10
50
—
10
50
mV
INPUT VOLTAGE
CONTINUOUS
16
28
40
16
28
40
VDC
NO LOAD TO FULL
TRANSIENT 50 ms 1
—
—
50
—
—
50
V
INPUT CURRENT
NO LOAD
—
27
40
—
28
40
INHIBITED
—
3
5
—
3
4
mA
INPUT RIPPLE CURRENT 2
10 kHz - 10 MHz
—
30
200
—
30
150
EFFICIENCY
TC = 25°C
66
71
—
66
71
—
64
—
—
64
—
—
—
—
2.0
—
—
2.2
—
—
75
—
—
75
ms
—
—
±750
—
—
±750
mV pk
TC = -55°C TO +125°C
LOAD FAULT 3, 4
POWER DISSIPATION
SHORT CIRCUIT
RECOVERY
STEP LOAD RESPONSE 4, 5
TRANSIENT
1
mA p-p
%
W
50% - 100% - 50%
RECOVERY
—
—
1500
—
—
1500
µs
STEP LINE RESPONSE 1, 4, 5
TRANSIENT
—
—
±500
—
—
±500
mV pk
16 - 40 - 16 VDC
RECOVERY
—
—
900
—
—
900
µs
START-UP
DELAY
—
—
75
—
—
75 1
ms
OVERSHOOT 1
—
—
200
—
—
500
mV pk
NO EFFECT ON DC
PERFORMANCE
—
—
300
—
—
300
µF
0 - 28 VIN, Full lOad
CAPACITIVE LOAD
TC = 25°C
1
Notes
1. Guaranteed by qualification test and/or analysis. Not an in-line test.
2.An external 2 µH inductor, added in series to the input, is necessary to
maintain specifications.
3.Indefinite short circuit protection not guaranteed above 125°C (case).
www.craneae.com/interpoint
4.Recovery time is measured from application of the transient to point at
which Vout is within 1% of Vout at final value.
5.Transition time >10 µs.
Page 7 of 15
MSA_MGA Rev AC - 2013.06.13
Crane Aerospace & Electronics Power Solutions
MSA/MGA Single and Dual DC-DC Converters
28 Volt input – 5 Watt
Table 10: Electrical Characteristics: -55°C to +125°C TC, 28 VDC Vin, 100% load, free run, unless otherwise specified.
MSA/MGA single output models
PARAMETER
OUTPUT CURRENT
TYP
MAX
MIN
TYP
MAX
UNITS
11.52
12.00
12.48
14.40
15.00
15.60
VDC
0
—
417
0
—
333
mA
0
—
5
0
—
5
W
Vin = 16 to 40 VDC
OUTPUT POWER
Vin = 16 to 40 VDC
OUTPUT RIPPLE
MSA2815S
MGA2815S
MIN
CONDITIONS
OUTPUT VOLTAGE
MSA2812S
MGA2812S
TC = 25°C
—
50
200
—
50
170
TC = -55°C TO +125°C
—
—
300
—
—
250
VIN = 16 to 40 VDC
—
10
50
—
10
50
mV
LOAD REGULATION
No LOAD TO FULL
—
10
50
—
10
50
mV
INPUT VOLTAGE
CONTINUOUS
16
28
40
16
28
40
VDC
V
10 kHz - 2 MHz
LINE REGULATION
1
NO LOAD TO FULL
TRANSIENT 50 ms
—
—
50
—
—
50
INPUT CURRENT
NO LOAD
—
29
42
—
31
44
INHIBITED
—
3
5
—
3
5
10 kHz - 10 MHz
—
30
150
—
30
150
TC = 25°C
INPUT RIPPLE CURRENT 2
EFFICIENCY
mV p-p
mA
mA p-p
70
76
—
71
76
—
TC = -55°C TO +125°C
68
—
—
69
—
—
POWER DISSIPATION
—
—
2.1
—
—
2.0
W
SHORT CIRCUIT
RECOVERY 1
—
—
30
—
—
30
ms
STEP LOAD RESPONSE 4, 5
TRANSIENT
—
—
±1100
—
—
±1500
mV pk
50% - 100% - 50%
RECOVERY
—
—
3000
—
—
3500
µs
LOAD FAULT 3, 4
STEP LINE RESPONSE
1, 4, 5
%
TRANSIENT
—
—
±800
—
—
±500
mV pk
16 - 40 - 16 VDC
RECOVERY
—
—
1300
—
—
1300
µs
START-UP
DELAY
OVERSHOOT 1
—
—
30
—
—
30
ms
—
—
500
—
—
500
mV pk
—
—
500
—
—
500
µF
0 - 28 VIN, Full lOad
CAPACITIVE LOAD 1
TC = 25°C
NO EFFECT ON DC
PERFORMANCE
Notes
1. Guaranteed by qualification test and/or analysis. Not an in-line test.
2.An external 2 µH inductor, added in series to the input, is necessary to
maintain specifications.
3.Indefinite short circuit protection not guaranteed above 125°C (case).
www.craneae.com/interpoint
4.Recovery time is measured from application of the transient to point at
which Vout is within 1% of Vout at final value.
5.Transition time >10 µs.
Page 8 of 15
MSA_MGA Rev AC - 2013.06.13
Crane Aerospace & Electronics Power Solutions
MSA/MGA Single and Dual DC-DC Converters
28 Volt input – 5 Watt
Table 11: Electrical Characteristics: -55°C to +125°C TC, 28 VDC Vin, 100% load, free run, unless otherwise specified.
MSA/MGA Dual output models
MSA2805D
MSA2812D
MSA2815D
MGA2805D
MGA2812D
MGA2815D
PARAMETER
CONDITIONS
MIN
TYP
MAX
MIN
TYP
MAX
MIN
TYP
MAX
OUTPUT VOLTAGE
+VOUT
4.80
5.00
5.20
11.52
12.00
12.48
14.40
15.00
15.60
4.75
5.00
5.25
11.09
12.00
12.96
14.70
15.00
16.20
-VOUT
UNITS
VDC
OUTPUT CURRENT 2
EITHER OUTPUT
—
±500
800
—
±208
333
—
±167
267
Vin = 16 to 40 VDC
TOTAL OUTPUT
—
—
1000
—
—
416
—
—
334
OUTPUT POWER 2
EITHER OUTPUT
—
±2.50
4
—
±2.50
4
—
±2.50
4
Vin = 16 to 40 VDC
TOTAL OUTPUT
—
—
5
—
—
5
—
—
5
—
—
150
—
40
140
—
60
150
10 kHz - 2 MHz ± VOUT
TC = 25°C
TC = -55°C TO +125°C
—
—
300
—
—
250
—
—
250
+VOUT
—
10
25
—
10
50
—
10
50
VIN = 16 to 40 V
-VOUT
—
40
75
—
40
180
—
40
180
LOAD REGULATION
+VOUT
—
10
50
—
10
50
—
10
50
No LOAD TO FULL
-VOUT
—
50
200
—
50
200
—
50
200
Cross REgulation 1, 3
Figure 24 (10-90%)
—
10
20
—
8
15
—
7
15
Effect on -VOUT
Figure 25 (50-10%)
—
5
8
—
3.7
6
—
3
6
INPUT VOLTAGE
NO LOAD TO FULL
CONTINUOUS
16
28
40
16
28
40
16
28
40
VDC
—
—
50
—
—
50
—
—
50
V
INPUT CURRENT
NO LOAD
—
30
35
—
33
58
—
38
60
INHIBITED
—
3
5
—
3
5
—
3
5
OUTPUT RIPPLE
LINE REGULATION TRANSIENT 50 ms
1
INPUT RIPPLE CURRENT 4
10 kHz - 10 MHz
—
30
160
—
30
150
—
30
150
EFFICIENCY
TC = 25°C
68
72
—
69
75
—
70
75
—
65
—
—
67
—
—
68
—
—
—
—
2.0
—
—
1.9
—
—
1.8
TC = -55°C TO +125°C
LOAD FAULT 5, 6
POWER DISSIPATION
1
mA
W
mV p-p
mV
mV
%
mA
mA p-p
%
W
SHORT CIRCUIT
RECOVERY
—
—
50
—
—
30
—
—
50
ms
STEP LOAD RESPONSE 6, 7
TRANSIENT
—
—
±500
—
—
±1400
—
—
±1400
mV pk
50% - 100% - 50%
RECOVERY
—
—
1000
—
—
4500
—
—
4500
µs
STEP LINE RESPONSE 1, 6, 7
TRANSIENT
—
—
±750
—
—
±500
—
—
±1500
mV pk
16 - 40 - 16 VDC
RECOVERY
—
—
1.2
—
—
2.0
—
—
1.2
ms
START-UP
DELAY
—
—
25
—
—
30
—
—
25
ms
0 to 28 VIN, full Load
OVERSHOOT 1
—
—
750
—
—
500
—
—
500
mV pk
NO EFFECT ON DC
PERFORMANCE
—
—
10
—
—
100
—
—
10
µF
CAPACITIVE LOAD
TC = 25°C
1
Notes
1. Guaranteed by qualification test and/or analysis. Not an in-line test.
2. Up to 4 watts (80% of full power) is available from either output providing the
opposite output is carrying 20% of total power.
3.Shows regulation effect on the minus output during defined cross loading
conditions. See “Figure 24” and “Figure 25” on page 11.
www.craneae.com/interpoint
4.An external 2 µH inductor, added in series to the input, is necessary to maintain
specifications.
5.Indefinite short circuit protection not guaranteed above 125°C (case).
6.Recovery time is measured from application of the transient to point at which
Vout is within 1% of Vout at final value.
7.Transition time >10 µs.
Page 9 of 15
MSA_MGA Rev AC - 2013.06.13
Crane Aerospace & Electronics Power Solutions
MSA/MGA Single and Dual DC-DC Converters
28 Volt input – 5 Watt
Typical Performance Plots:
25°C TC, 28 Vin, 100% load, free run, unless otherwise specified.
These are examples for reference only and are not guaranteed specifications.
80
80
80
16V
16V
28V
40V
50
40
28V
60
40V
50
40
30
1
2
3
4
5
1
2
3
4
5
1
2
3
4
5
6
OUTPUT POWER (Watts)
MSA/MGA2815S EFFICIENCY
Figure 11
100% to 50%
50mV/div.
VIN
60
40V
28V
30
6
Figure 10
20V/div.
16V
70
40V
MSA/MGA2812S EFFICIENCY
Figure 9
28V
50
OUTPUT POWER (Watts)
MSA/MGA2805S EFFICIENCY
80
60
40
30
6
OUTPUT POWER (Watts)
50
20mV/div.
EFFICIENCY (%)
70
EFFICIENCY (%)
60
70
EFFICIENCY (%)
EFFICIENCY (%)
70
16V
40
30
1
2
3
4
5
6
VOUT
50% to 100%
100 µs/div
16 V TO 40 V
MSA/MGA2805S STEP LINE RESPONSE
OUTPUT POWER (Watts)
MSA/MGA2815D EFFICIENCY
Figure 12
100 µs/div
50% 100%
MSA/MGA2805S STEP LOAD RESPONSE
Figure 13
Figure 14
INPUT VOLTAGE (Volts)
VIN
10% to 100%
100 µs/div
10% 100%
MSA/MGA2805S STEP LOAD RESPONSE
Figure 15
www.craneae.com/interpoint
1V/div.
50mV/div.
100% to 10%
20V/div.
17
VOUT
1 ms/div
MSA/MGA2805S TURN-ON INTO NO LOAD
2805S
16
15
2812S
14
13
12
2815S
1
2
3
4
5
6
OUTPUT POWER (Watts)
50 mV DROP
Figure 16
Page 10 of 15
MSA_MGA Rev AC - 2013.06.13
LOW LINE DROPOUT VS. LOAD
Figure 17
Crane Aerospace & Electronics Power Solutions
MSA/MGA Single and Dual DC-DC Converters
28 Volt input – 5 Watt
20V/div.
Typical Performance Plots:
28 Vin, 25°C TC, 100% load, free run, unless otherwise specified.
These are examples for reference only and are not guaranteed specifications.
20
30
50% to 10%
100mV/div.
50
60
70
80
90
100
0.1
1
10
+VOUT
–VOUT
10% to 50%
100
FREQUENCY (kHz)
MSA SERIES AUDIO REJECTION
Figure 18
–POUT=2.5W
VIN
40
100mV/div.
ATTENUATION (dB)
10
100 µs/div
10%
50%)
200 µs/div
16 V TO 40 V
MSA/MGA2815D INPUT STEP LINE RESPONSE MSA/MGA2815D +VO STEP LOAD RESPONSE
Figure 19
Figure 20
INPUT VOLTAGE (Volts)
200mV/div.
90% to 10%
20V/div.
17
–POUT=0.5W
VIN
5V/div.
+VOUT
–VOUT
10% to 90%
200 µs/div
10%
90%
500 µs/div
MSA/MGA2815D +VO STEP LOAD RESPONSE
MSA/MGA2815D TURN-ON INTO NO LOAD
Figure 21
–VOUT VOLTAGE CHANGE (%)
–VOUT VOLTAGE CHANGE (%)
6
4
2812D
2
0
2815D
–2
2812D
2
COND A
1
0
2815D
–1
COND B
–2
–4
–3
–6
2812D
–4
–8
–10
4
3
90/10
70/30
50/50
30/70
10/90
OUTPUT LOAD (+VOUT % / –VOUT %)
90–10% LOAD on +V, 10-90% LOAD on –V
MSA/MGA DUAL CROSS REGULATION
Figure 24
www.craneae.com/interpoint
–5
10
20
30
14
13
12
2812D
1
2
3
4
5
OUTPUT POWER (Watts)
50 mV DROP
Figure 23
5
8
15
6
MSA/MGA LOW LINE DROPOUT VS. LOAD
Figure 22
10
2815D
16
40
50
OUTPUT LOAD (%)
COND. A: 50% LOAD +V; 10% to 50% –V
COND. B: 50% LOAD –V; 10% to 50% +V
MSA/MGA DUAL CROSS REGULATION
Figure 25
Page 11 of 15
MSA_MGA Rev AC - 2013.06.13
Crane Aerospace & Electronics Power Solutions
MSA/MGA Single and Dual DC-DC Converters
28 Volt input – 5 Watt
BOTTOM VIEW CASE C1
Projection Weld
Squared corner and dot on
top of case indicate pin one.
1.075 max. (27.31)
0.932 (23.67)
1
2
3
4
5
0.025
(0.64)
dia.
8
0.132 (3.35)
7
6
0.932 (23.67)
1.075 max. (27.31)
0.732 (18.59)
0.332 (8.43)
0.532 (13.51)
0.000
0.132 (3.35)
0.000
0.205 ±0.010
(5.21 ±0.25)
0.270 max.
(6.86)
0.000
Weight: 15 grams maximum
Case dimensions in inches (mm)
Tolerance ±0.005 (0.13) for three decimal places
±0.01 (0.3) for two decimal places
unless otherwise specified
CAUTION
Heat from reflow or wave soldering may damage the device.
Solder pins individually with heat application
not exceeding 300°C for 10 seconds per pin.
Materials
Header
Cold Rolled Steel/Nickel/Gold
Cover
Cold Rolled Steel/Nickel
Pins
#52 alloy, gold, compression glass seal
Gold plating of 50 - 150 microinches included in pin diameter
Seal hole: 0.070 ±0.003 (1.78 ±0.08)
Case C1 MSA, Rev B, 2013.04.15
Please refer to the numerical dimensions for accuracy.
Figure 26: MSA Case Dimensions
www.craneae.com/interpoint
Page 12 of 15
MSA_MGA Rev AC - 2013.06.13
Crane Aerospace & Electronics Power Solutions
MSA/MGA Single and Dual DC-DC Converters
28 Volt input – 5 Watt
TOP VIEW CASE D1
∇
1
2
3
4
5
6
7
8
9
10
1.000 (25.40)
0.900 (22.86)
0.800 (20.32)
0.700 (17.78)
0.600 (15.24)
0.500 (12.70)
0.400 (10.16)
0.300 ( 7.62)
0.200 ( 5.08)
0.100 ( 2.54)
(This view shows
straight leads.)
0.000
CASE D1 GULL-WING PADS
0.090 (2.29)
20
19
18
17
16
15
14
13
12
11
0.102 (2.59)
0.015
(0.38)
0.000
0.100 (2.54) 18X
0.08
(2.0)
2.115 ref. (53.72)
Straight Leads
0.010
(0.25)
Seam seal
0.250 max.
(6.35)
1.35 ref. (34.29)
0.125 ref.
(3.18)
1 0.010
(0.25)
Gull Wing Leads
Option
1 Leads are solder dipped and lead
dimensions are prior to solder dip.
0.055
(1.40)
0.010 (0.25)
Bottom of lead to
bottom of case
The gull wing option
(configuration) requires
“Z” as a “case
designator”
in the model number.
ex. MGA2805Z
(Center to center)
0.070
(1.78)
0.030 (0.76)
1.000
(25.40)
1.110 max
(28.19)
The triangle (ESD) marking on the cover indicates pin one.
Cover marking is oriented with pin one at the upper right corner.
The straight lead configuration does not require a “case designator”
in the model number. ex. MGA2805S
0.50
(12.7)
1.000 (25.40)
1.110 max
(28.19)
0.08
(2.0)
Weight: 15 grams max.
Dimensions in inches (mm)
Tolerance ±0.005 (0.13) for three decimal places,
±0.01 (0.3) for two decimal places, unless otherwise specified
Please refer to the numerical dimensions for accuracy.
CAUTION
Maximum reflow temperature is 220°C for a maximum of 30 seconds.
SN60, SN62, or SN63 are the recommended types of solder. See MGA
gull-wing solder pads layout. Hand soldering should not exceed 300°C
for 10 seconds per pin.
Materials
Header Kovar/Nickel/Gold
Cover
Kovar/Nickel
Pins
Kovar/Nickel/Gold matched glass seal
Gold plating of 50 - 225 microinches is included in pin diameter
Seal hole: 0.040 ±0.002 (1.02 ±0.05)
0.050 (1.27) 4X
Dimensions in inches (mm)
Tolerance ±0.005 (0.13) for three decimal places ±0.01 (0.3) for
two decimal places, unless otherwise specified.
Please refer to the numerical dimensions for accuracy.
CAUTION:
Internal components are soldered with SN96 (melting
temperature 221°C) to prevent damage during reflow. Maximum
reflow temperature for surface mounting the MGA converter is
220°C for a maximum of 30 seconds. SN60, 62, or 63 are the
recommended types of solder.
Hand soldering should not exceed 300°C for 10 seconds per pin.
SOLDER MASK NOTES
1. Pad dimensions are for the solder mask. Leads common to
each other can be connected to each other as desired.
2. Ground (case) pins should be connected to the center pad for
improved grounding.
3. Connect "no connection" pins to case ground to reduce EMI.
4. Center pad should not have a solder mask. Solder, copper, or
Au/Ni plate are preferred over solder mask for adhesive attach.
5. Pre-tin base of converter prior to soldering.
6. If less rotation of case is desired, reduce the width of the large
case pad by 0.020 inches (0.51 mm). Pad length can be
extended 0.010 inches (0.25 mm) towards the case body and an
as-desired dimension away from the case body.
7. Do not exceed 220°C as measured on the body of the
converter (top or bottom).
8. Attach the body of the case to the board with a thermally
conductive adhesive or SN60, 62, or 63 solder. The adhesive
can be electrically conductive as well. It can be applied as an
underfill post solder or dispensed and cured prior or during
solder.
9. In the presence of vibration, to ensure reliable mechanical
attachment, the body of the case should be attached with
adhesive or solder as noted above (note 8). The leads alone do
not provide sufficient mechanical attachment.
Case D1 MGA Solder Pads, Rev F, 2013.05.31
Case D1, Rev D, 2013.04.22
Figure 27: MGA Case Dimensions
Figure 28: MGA Gull-Wing Solder Pad Layout
Surface Mount Case and Lead Options
www.craneae.com/interpoint
Page 13 of 15
MSA_MGA Rev AC - 2013.06.13
Crane Aerospace & Electronics Power Solutions
MSA/MGA Single and Dual DC-DC Converters
28 Volt input – 5 Watt
StanDarD anD /eS (nOn-QMl) anD /883 (ClaSS h, QMl)
Mil-prf-38534 eleMent eValuatiOn
COMpOnent-leVel teSt perfOrMeD
nOn-QMl 1
QMl
StanDarD anD /eS
ClaSS h
/883
M/S 2
M/S 2
p3
n
n
n
Visual
n
n
InternalVisual
n
FinalElectrical
n
n
WireBondEvaluation
n
n
ElementElectrical
Notes:
1.Standardand/ESnon-QMLproductsmaynotmeetalloftherequirementsofMIL-PRF-38534.
2.M/S=Activecomponents(MicrocircuitandSemiconductorDie)
3.P=Passivecomponents,ClassHelementevaluation.NotapplicabletoStandardand/ES
elementevaluation.
Table 12: Element Evaluation
table 5: element evaluation–high reliability stanDarD, /es anD /883 (Class h)
www.craneae.com/interpoint
Page 14 of 15
MSA_MGA Rev AC - 2013.06.13
Crane Aerospace & Electronics Power Solutions
MSA/MGA Single and Dual DC-DC Converters
28 Volt input – 5 Watt
Tableisforreferenceonly.SeeindividualSeries'datasheetsforspecificscreening.
StanDarD anD /eS (nOn-QMl) anD /883 (ClaSS h, QMl)
Mil-prf-38534 enVirOnMental SCreening
nOn-QMl 1
teSt perfOrMeD
pre-cap inspection, Method 2017, 2032
QMl
StanDarD
/eS
ClaSS h
/883
n
n
n
temperature cycle (10 times)
Method1010,Cond.C,-65°Cto+150°C,ambient
n
Method1010,Cond.B,-55°Cto+125°C,ambient
n
constant acceleration
Method2001,3000g
n
Method2001,500g
n
burn-in Method 1015, +125°c case, typical 2
96hours
n
160hours
n
Final electrical test, Mil-prF-38534, Group a,
Subgroups1through6,-55°C,+25°C,+125°Ccase
Subgroups1and4,+25°Ccase
n
n
n
n
GrossLeak,Method1014,Cond.C
n
n
FineLeak,Method1014,Cond.A
n
n
n
n
Hermeticity test
GrossLeak,Dip
n
Final visual inspection, Method 2009
n
TestmethodsarereferencedtoMIL-STD-883asdeterminedbyMIL-PRF-38534.
Notes:
1.Standardand/ES,non-QMLproducts,maynotmeetalloftherequirementsofMIL-PRF-38534.
2.Burn-intemperaturedesignedtobringthecasetemperatureto+125°Cminimum.Burn-inisapoweredtest.
Table 13: Environmental Screening
table 6: environmental sCreening–high reliability stanDarD, /es anD /883 (Class h)
MSA/MGA Single and Dual, MSA_MGA Rev AC - 2013.06.13. This revision supersedes all previous releases. All technical information is believed
to be accurate, but no responsibility is assumed for errors or omissions. Crane Electronics, Inc. reserves the right to make changes in products
or specifications without notice. Interpoint, MSA Series and MGA Series are trademarks of Crane Electronics, Inc. Copyright © 1999-2013 Crane
Electronics, Inc. All rights reserved. www.craneae.com/interpoint
Page 15 of 15