CRANE MOR2805DY/883

Crane Aerospace & Electronics Power Solutions
MOR Single and Dual DC/DC Converters
28 VOLT INPUT – 120 WATT
FEATURES
• –55° to +125°C operation
• 16 to 40 VDC input
• Fully isolated
• Magnetic feedback
• Fixed frequency 550 kHz typical
• Topology – Single Ended Forward
MODELS
• Will withstand transients of up to 50 V for
VDC OUTPUT
up to 120 msec.
SINGLES
3.3
5
6.3
9.5
12
15
• Output trim 60% to 110%
• Input and output side inhibit
• Remote sense
• Synchronization
DUALS
±3.3
±5
±6.3
±9.5
±12
±15
• Parallel up to 5 units
• Output short circuit protection
• Up to 80 W/in3, 87% efficiency
DESCRIPTION
With up to 120 watts of output power, the MOR Series™ of DC/DC
converters operates from a standard 28 volt bus and offers a wide
input range of 16 to 40 VDC. Full operation over the military temperature range, –55°C to +125°C, makes the MOR Series an ideal
choice for military, aerospace, space, and other high reliability applications. In compliance with MIL-STD-704D, the converters will withstand transients of up to 50 volts for up to 120 milliseconds. Use
Interpoint’s FME28-461 EMI filter to pass MIL-STD-461C, CE03
requirements.
The MOR Series converters incorporate a single-ended forward
topology which uses a constant frequency Pulse Width Modulator
Crane Aerospace & Electronics, Interpoint Corp.
PO Box 97005 • Redmond WA 98073-9705
425.882.3100 • [email protected]
www.craneae.com
(PWM) current mode control design and switches at 550 kHz,
nominal. The converters also provide short circuit protection by
restricting the current to 125% of the full load output current. All
models offer two inhibits, one referenced to input common and one
referenced to output common. A remote sense function is available
on single output models.
Using the trim function, the MOR Series can provide any output from
2 to 33 VDC. For example, trimming the two 15 volt outputs of the
15 dual (MOR2815D) to 14 volts, and then stacking the outputs will
provide a 28 volt output.
Page 1 of 21
Rev G - 20060418
Crane Aerospace & Electronics Power Solutions
MOR Single and Dual DC/DC Converters
28 VOLT INPUT – 120 WATT
OPERATING CONDITIONS AND CHARACTERISTICS
SYNC AND INHIBIT
Input Voltage Range
• 16 to 40 VDC continuous
• 50 V for 120 msec transient
Output Power
• 66 to 120 W, depending on model
Power Dissipation (Pd)
• 30 W
Lead Soldering Temperature (10 sec per lead)
• 300°C
Storage Temperature Range (Case)
• –65°C to +150°C
Case Operating Temperature (Tc)
• –55°C to +125°C full power
• –55°C to +135°C absolute
Derating Output Power/Current
• Linearly from 100% at 125°C to 0% at 135° C
Output Voltage Temperature Coefficient
• 100 ppm/°C typical
Input to Output Capacitance
• 150 pF typical
Current Limit
• 125% of full load typical
Isolation
• 100 megohm minimum at 500 V
Audio Rejection
• 40 dB typical
Conversion Frequency
• Free run mode, 25°C, 550 kHz typical
480 kHz. min, 580 kHz max
• External sync range 525 to 625 kHz
Inhibit Pin Voltage (unit enabled)
• INH1 = 13 V typ, INH2 = 8 V typical
Undervoltage Lockout
• 15.5 V input typical
Sync In (525 to 625 kHz)
• Logic low 0.8 V max, duty cycle 15% to 50%
• Logic high 4.5 V min, 9 V max
• Referenced to input common
Sync Out - Referenced to input common
1.7 μΗ
Inhibit (INH1, INH2) : TTL Open Collector
• Logic low (output disabled), V = 0.2 V max.
• INH1 referenced to input common
• INH2 referenced to output common
• Logic high (output enabled) open collector
MECHANICAL AND ENVIRONMENTAL
Size (maximum)
3.005 x 1.505 x 0.400 inches (76.33 x 38.23 x 10.16 mm)
Available in a variety of packages. See cases U, V, W, Y, and Z
for dimensions.
Weight (maximum)
110 grams typical
Screening
Standard, ES, or 883 (Class H, QML). See “883, Class H, QML Products –
Environmental Screeing” for more information.
0.5 μΗ
1.3 μΗ
0.1 μΗ
Positive
Output
Positive
Input
100 Ω
6 μF
6 μF
600 μF
0.1 Ω
Input
Common
100 Ω
0.015 μF
500 V
FET
Driver
+
_
PWM
Controller
Share
VS+
Secondary VCC
UVLO
VIn
Sense
Return
Output
Common
0.015 μF
500 V
Share
Function
Bias
Supply
Inhibit 1
Positive
Sense
600 μF
Trim
+
_
VRef
Secondary VCC
Sync In
Sync Out
Sync
In / Out
Inhibit 2
FIGURE 1: SIMPLIFIED SCHEMATIC – MOR2805S, SINGLE 5 VOLT OUTPUT – TYPICAL VALUES
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Page 2 of 21
Rev G - 20060418
Crane Aerospace & Electronics Power Solutions
MOR Single and Dual DC/DC Converters
28 VOLT INPUT – 120 WATT
PINS NOT IN USE
PIN OUT
Pin
1
2
3
4
5
6
7
8
9
10
11
12
Single Output
Positive Input
Input Common
Trim
Inhibit 1 (INH1)
Sync Out
Sync In
Positive Output
Output Common
Sense Return
Positive Sense
Share
Inhibit 2 (INH2)
Dual Output
Positive Input
Input Common
Case
Inhibit 1 (INH1)
Sync Out
Sync In
Positive Output
Output Common
Negative Output
Trim
Share
Inhibit 2 (INH2)
Trim
Case
Inhibit (INH1, INH2)
Sync Out
Sync In
Share
Sense Lines
Angled corner and cover marking indicate pin one for cases
U and V. Cover marking indicates pin one for cases W, Y, and Z.
1
2
TOP VIEW
MOR
(Pin side, marked side)
11
3
10
4
9
5
6
Outline shown is case U, pin out is the same for
all cases. Available in a variety of packages. See
cases U, V, W, Y and Z for dimensions.
FIGURE 2: PIN OUT TOP VIEW
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12
Page 3 of 21
Rev G - 20060418
8
7
Leave unconnected
User’s discretion
Leave unconnected
Leave unconnected
Connect to input common
Leave unconnected
Must be connected to appropriate
outputs
Crane Aerospace & Electronics Power Solutions
MOR Single and Dual DC/DC Converters
28 VOLT INPUT – 120 WATT
HOW TO USE FUNCTIONS
TRIM FORMULAS
POSITIVE INPUT AND INPUT COMMON
Steady state voltage range is 16 to 40 VDC. Transient range is 40
to 50 V for a maximum of 120 msec. Low voltage lockout prevents
the units from operating below approximately 15.5 VDC input
voltage to keep system current levels smooth, especially during
initialization or re-start operations. All models include a soft-start
function to prevent large current draw and minimize overshhoot.
CASE AND EXTERNAL INPUT FILTERS
Internal 500 V capacitors are connected between the case and
input common and between the case and output common. See
Figure 3.
1, 2, 3
Positive Input
Positive Output 10, 11, 12
4, 5, 6
Input Common
MOR
Single or Dual
Output
Output Common
7, 8, 9
RT (kΩ) =
Vo
Vo nominal
, 1.0 ≤ α ≤ 1.1
(
)
Vo
– 1 • 20
2.5
– 50
(α -1)
Example:
Vo nominal = 5.0, Vo = 5.25, α = 1.05, RT = 390 kΩ
Trim Down:
Vo
α
=
Vo nominal
1 Positive Input
FME28-461
EMI Filter
28V
Trim Up:
α
=
2 Input Common
, 0.6 ≤ α ≤ 1.0
RT (kΩ) = 50 • α – 30
1–α
Example: Vo nominal = 5.0,Vo = 4.5, α = 0.9, RT = 150 kΩ
Case
Chassis Ground
INHIBIT 1 AND 2
FIGURE 3: EXTERNAL FILTER CONNECTION
Interpoint’s FME filters are recommended to meet CE03 requirements for reflected input line current. When using an external input
filter it is important that the case of the filter and the case of the
converter be connected through as low as an impedance as
possible. Direct connection of the baseplates to chassis ground is
the best connection. If connected by a single trace, the trace should
be as wide as it is long.
TRIM
Both single and dual output models include a trim function. Output
voltage can be trimmed from 60% up to 110% of nominal V out .
When trimming up, do not exceed the maximum output power.
When trimming down, do not exceed the maximum output current.
See Figure 4.
On dual models the positive output is regulated and the negative
output is transformer coupled (cross-regulated) to the positive
output. When trimming the duals, both output voltages will be
adjusted equally. See Figure 5.
3
MOR
Single
Output
Trim
RT
Positive Output 7
Positive Sense 10
Sense Return
Output Common
9
8
MOR
Dual
Output
TRIM
DOWN
FIGURE 4: TRIM – SINGLE
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10 Trim
TRIM UP
RT
Positive Output
7
Output Common
8
Negative Output
9
Two inhibit terminals disable switching, resulting in no output and
very low quiescent Positive
Input
input current. The
two inhibit pins allow
access to an inhibit
function on either
side of the isolation
barrier to help main- Inhibit 1
VCC
tain isolation.
Input
Common
MOR Input Side
An open collector is
required for interFIGURE 6: INHIBIT – INPUT SIDE
facing with both of
the inhibit pins. Applying an open-collector TTL logic low to either
inhibit pin will inhibit the
converter. Applying an
VS
~
Voltage
Current
open collector TTL logic
E/A
Limit
high or leaving the pins
open will enable the
converter. Inhibit 1 is
referenced
to
Input
Feedback
Common, while Inhibit 2
Inhibit 2
is referenced to Sense
Sense
Return on the output side.
Return
MOR Output Side
TRIM UP
The open circuit voltage
for Inhibit 1 is 13 V and for
Inhibit 2 it is 8 V. Float the inhibit pin(s) if not used. The required
logic low voltage level is 0.2 V maximum.
FIGURE 7: INHIBIT – OUTPUT SIDE
TRIM DOWN
FIGURE 5: TRIM – DUAL
See Figures 6 and 7.
Page 4 of 21
Rev G - 20060418
Crane Aerospace & Electronics Power Solutions
MOR Single and Dual DC/DC Converters
28 VOLT INPUT – 120 WATT
SYNC IN AND SYNC OUT
The MOR converters can be synchronized to the system clock by
applying a TTL compatible sync signal to the Sync In pin. Sync Out
can be used to synchronize other components to the MOR
converter’s switching frequency.
VCC
~
VCC
~
5V
~
Sync In
200 Ω
330 pF
Sync Out
Input
Common
1.8 k
Input
Common
FIGURE 8: SYNC IN
FIGURE 9: SYNC OUT
The frequency range for external synchronization is 525 to 625
kHz. The requirements for an external signal are 15% to 50% duty
cycle, 0 ≤ L ≤ 0.8 V and 4.5 ≤ H ≤ 9 V. Both Sync In and Sync Out
are referenced to input common. Sync In should be grounded to
input common if not used. See Figures 8 and 9.
POSITIVE OUTPUT,
NEGATIVE OUTPUT
AND OUTPUT
COMMON
Output current is limited
to 125% of maximum
specified current under
short circuit or load fault
conditions.
1
Inhibit 2
MOR
Dual Output
+
Output Common 8
–
Input Common
2
Negative Output 9
FIGURE 11: “STACKED” OUTPUT
Positive Output 7
Positive Sense 10
1 Positive Input
28V
6 Sync In
Share 11
Sense Return 9
Output common 8
5 Sync Out
2
A special remote sensing feature maintains the desired output
voltage at the load. See Figure 12. When this feature is not used,
connect the sense lines to their respective output terminals. See
Figure 13. Remote sensing is available on single output models
only. o not exceed 110% of Vout and maximum output power.
Input Common
Positive Output 7
Positive Sense 10
1 Positive Input
6 Sync In
2
By using the Share pin, up to five single or dual converters may be
paralleled for a total output power of over 500 watts (90% Pout /
converter, max.). The converters will share within 10% of each
other at 25 to 90% rated power. MOR converters feature true n+1
redundancy for reliability in critical applications. See Figure 10 for
the proper connections.
Input Common
6 Sync In
Share 11
9
8
5 Sync Out
2
Load
–
Positive Output 7
Positive Sense 10
1 Positive Input
All Positive Outputs and Positive Senses should be connected to
a common point. All Negative Outputs and Sense Returns should
be connected to a common point. The Share pin is referenced to
Sense Return. Leave the share pin floating (unconnected) if not
used. Also see Figure 12.
+
Share 11
Sense Return 9
Output common 8
5 Sync Out
SHARE (PARALLELING)
Sense Return
Output common
Input Common
FIGURE 12: PARALLELING
1
Positive Input
6
Sync In
4
Inhbit 1
2
Input Common
MOR
Single
Output
28V
Share
1
Positive Input
6
Sync In
4
Inhbit 1
28V
FIGURE 10: SHARE
MOR
Dual
Output
Positive Output 7
Positive Sense 10
Inhibit 2 12
Sense Return 9
Output Common 8
Positive Output 7
Inhibit 2 12
+
Load
–
+
Load
Output Common 8
0
Load
2
Input Common
Negative Output 9
FIGURE 13: CONNECTIONS
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Load
Single output models operate from no load to full load. Dual output
models with balanced loads operate from no load to full load. For
dual models with unbalanced loads, at least 10% of the total output
power must be drawn from the positive output at all times, however,
the negative output does not require a minimum load. See note 7,
cross regulation, under the Electrical Characteristics Tables. Dual
outputs may be “stacked” to double the output voltage. See Figure
11.
POSITIVE SENSE, SENSE RETURN
Sense
Return
Positive Output 7
Positive Input
Page 5 of 21
Rev G - 20060418
–
Crane Aerospace & Electronics Power Solutions
MOR Single and Dual DC/DC Converters
28 VOLT INPUT – 120 WATT
MODEL NUMBERING KEY
MOR
28 05 S
SMD NUMBERS
STANDARD MICROCIRCUIT
DRAWING (SMD)
5962-9954401HXC
5962-9954801HXC
5962-9954501HXC
5962-9954601HXC
5962-9954901HXC
5962-9955001HXC
5962-9956401HXC
5962-9956101HXC
5962-9956501HXC
5962-9956601HXC
5962-9956201HXC
5962-9956301HXC
Y / 883
Base Model
Input Voltage
Output Voltage
(R = decimal point, 3R3 = 3.3 Vout)
Number of Outputs
(S = single, D = dual)
Case/Lead Option
(Standard case – U – has no designator
in this position)
Screening
(Standard screening has no designator in this position.)
MOR SERIES
SIMILAR PART
MOR283R3S/883
MOR2805S/883
MOR286R3S/883
MOR289R5S/883
MOR2812S/883
MOR2815S/883
MOR283R3D/883
MOR2805D/883
MOR286R3D/883
MOR289R5D/883
MOR2812D/883
MOR2815D/883
For exact specifications for an SMD product, refer to the SMD drawing.
SMDs can be downloaded from: http://www.dscc.dla.mil/programs/smcr
CASE DESIGNATOR
STANDARD MICROCIRCUIT
DRAWING (SMD)
X
U
T
Y
Z
MOR SERIES
SIMILAR PART
U
V
W
Y
Z
Model Selection
MOR28
Base model
Vout value
number of outputs
case option
screening
Choose one from each of the following rows
Vout value
for singles and duals: 3R3, 5, 6R3, 9R5, 12, 15
“R” = decimal point, 3R3 = 3.3 VDC
Number of outputs
S (single) or D (dual)
Case option
standard (case U - leave blank), or case V, W, Y, Z
Screening
standard screening, leave blank
www.craneae.com
Page 6 of 21
Rev G - 20060418
/ES (ES screening), /883 (Class H, QML)
Crane Aerospace & Electronics Power Solutions
MOR Single and Dual DC/DC Converters
28 VOLT INPUT – 120 WATT
Electrical Characteristics: 25°C Tc, 28 VDC Vin, 100% load, free run, unless otherwise specified.
SINGLE OUTPUT MODELS
MOR283R3S
OUTPUT CURRENT
VIN = 16 to 40 VDC
0
—
20
0
—
20
0
—
16
0
—
11
A
OUTPUT POWER
VIN = 16 to 40 VDC
0
—
66
0
—
100
0
—
100
0
—
105
W
OUTPUT RIPPLE
VOLTAGE
10 kHz - 20 MHz
Tc = –55°C to +125°C
—
30
80
—
30
80
—
75
100
—
75
120
LINE REGULATION
10 kHz - 2 MHz
Tc = –55°C to +125°C
VIN = 16 to 40 VDC
—
—
20
0
50
20
—
—
20
0
50
20
—
—
50
0
60
20
—
—
50
0
80
20
mV
NO LOAD TO FULL
CONTINUOUS
TRANSIENT 120 ms1
—
16
—
0
28
—
20
40
50
—
16
—
0
28
—
20
40
50
—
16
—
0
28
—
20
40
50
—
16
—
0
28
—
30
40
50
mV
VDC
V
NO LOAD
—
70
130
—
70
130
—
70
130
—
70
130
mA
INHIBITED - INH1
INHIBITED - INH2
10 kHz - 20 MHz
Tc = –55°C to +125°C
—
—
—
—
10
70
—
—
—
—
10
70
—
—
—
—
10
70
—
—
—
—
10
70
mA
INPUT RIPPLE
CURRENT
EFFICIENCY
LOAD FAULT
STEP LOAD RESP.
STEP LINE RESP.
START-UP5
INHIBIT PIN CURRENT1
CAPACITIVE LOAD1
MIN
6.24
TYP MAX
6.30 6.36
MIN TYP MAX
9.40 9.50 9.60
UNITS
VDC
mV p-p
—
40
90
—
50
130
—
50
100
—
50
130
mA pp
74
78
—
78
81
—
81
83
—
81
84
—
%
OVERLOAD
SHORT CIRCUIT2
RECOVERY1
—
—
—
27
—
—
—
22
10
—
—
—
30
—
—
—
27
10
—
—
—
30
—
—
—
24
10
—
—
—
30
—
—
—
24
10
ms
50% – 100% – 50%
TRANSIENT
RECOVERY3
—
—
—
—
250
200
—
—
—
—
250
200
—
—
—
—
500
300
—
—
—
—
500
300
mV pk
μs
16 – 40 – 16 VDC
TRANSIENT1, 4
RECOVERY1, 3
—
—
—
—
400
300
—
—
—
—
400
300
—
—
—
—
500
300
—
—
—
—
500
300
mV pk
μs
DELAY
OVERSHOOT1
—
—
—
0
10
25
—
—
—
0
10
50
—
—
—
0
10
50
—
—
—
0
10
50
ms
mV pk
UNIT INHIBITED
—
0.1
1.0
—
0.1
1.0
—
0.1
1.0
—
0.1
1.0
mA
—
—
1000
—
—
1000
—
—
1000
—
—
1000
μF
POWER DISSIPATION
W
NO EFFECT ON DC
PERFORMANCE
Notes:
1. Guaranteed by design, not tested.
2. Short circuit is measured with a 10 mΩ (±10%)resisitive load.
www.craneae.com
TYP MAX
5.00 5.05
MOR289R5S
MIN
3.25
INPUT CURRENT
MIN
4.95
MOR286R3S
CONDITION
LOAD REGULATION
INPUT VOLTAGE
TYP MAX
3.30 3.35
MOR2805S
PARAMETER
OUTPUT VOLTAGE
3. Time to settle to within 1% of Vout.
4. Transition time > 10 μs
5. Tested on release from inhibit.
Page 7 of 21
Rev G - 20060418
Crane Aerospace & Electronics Power Solutions
MOR Single and Dual DC/DC Converters
28 VOLT INPUT – 120 WATT
Electrical Characteristics: 25°C Tc, 28 VDC Vin, 100% load, free run, unless otherwise specified.
SINGLE AND DUAL OUTPUT MODELS
PARAMETER
CONDITIONS
OUTPUT VOLTAGE5
+VOUT
OUTPUT CURRENT
MOR2812S
MIN
TYP MAX
11.88 12.00 12.12
MOR2815S
MIN
MOR283R3D
MOR2805D
TYP MAX
MIN
TYP MAX
MIN
14.85 15.00 15.15
3.25
3.30 3.35
4.95 5.00 5.05
3.30 3.38
4.92 5.00 5.08
–VOUT
—
—
—
—
—
—
3.22
VIN = 16 to 40 VDC
0
—
9.2
0
—
8
—
TYP MAX
206
—
±10
206
A
—
—
1006
W
—
—
110
—
—
120
—
—
—
75
120
—
75
150
—
50
80
—
50
80
Tc = –55°C to +125°C
+VOUT
—
—
50
0
100
20
—
—
50
0
120
20
—
—
35
25
50
50
—
—
35
25
50
50
VIN = 16 to 40 VDC
–VOUT
—
—
—
—
—
—
—
50
100
—
50
100
LOAD REGULATION
+VOUT
—
0
30
—
0
30
—
25
50
—
25
50
–VOUT
—
—
—
—
—
—
—
50
150
—
50
150
OUTPUT RIPPLE
VOLTAGE
+VOUT, ±VOUT
LINE REGULATION
CROSS REGULATION7
INPUT VOLTAGE
VIN = 16 to 40 VDC
VDC
±10
666
OUTPUT POWER
UNITS
10 kHz - 20 MHz
Tc = –55°C to +125°C
10 kHz - 2 MHz
mV p-p
mV
mV
NEGATIVE VOUT
—
—
—
—
—
—
—
6
10
—
5
8
%
CONTINUOUS
16
28
40
16
28
40
16
28
40
16
28
40
VDC
TRANSIENT 120 msec1
—
—
50
—
—
50
—
—
50
—
—
50
V
NO LOAD
INHIBITED - INH1
INHIBITED - INH2
10 kHz - 20 MHz
—
—
—
70
—
—
130
10
70
—
—
—
70
—
—
130
10
70
—
—
—
70
—
—
140
10
70
—
—
—
70
—
—
140
10
70
mA
CURRENT
EFFICIENCY
Tc = –55°C to +125°C
—
84
50
86
130
—
—
84
50
87
130
—
—
76
60
77
90
—
—
78
60
81
130
—
mA p-p
%
LOAD FAULT
POWER DISSIPATION
OVERLOAD
SHORT CIRCUIT2
RECOVERY1
50% – 100% — 50%
—
—
—
30
—
—
—
22
10
—
—
—
30
—
—
—
20
10
—
—
—
27
—
—
—
22
10
—
—
—
30
—
—
—
27
10
ms
INPUT CURRENT
INPUT RIPPLE
STEP LOAD RESP.
+VOUT, ± VOUT
STEP LINE RESP.
+VOUT, ± VOUT
START-UP8
INHIBIT PIN CURRENT1
CAPACITIVE LOAD1
W
TRANSIENT
—
—
600
—
—
600
—
—
250
—
—
250
mV pk
RECOVERY3
16 – 40 – 16 VDC
TRANSIENT1, 4
—
—
300
—
—
300
—
—
200
—
—
200
μs
—
—
600
—
—
600
—
—
400
—
—
400
mV pk
RECOVERY1, 3
—
—
300
—
—
300
—
—
300
—
—
300
μs
DELAY
OVERSHOOT1
—
—
—
—
10
50
—
—
—
—
10
50
—
—
—
—
10
25
—
—
—
—
10
50
ms
mV pk
UNIT INHIBITED
—
0.1
1.0
—
0.1
1.0
—
0.1
1.0
—
0.1
1.0
mA
—
—
1000
—
—
1000
—
—
1000
—
—
1000
μF
NO EFFECT ON DC
PERFORMANCE
Notes:
1. Guaranteed by design, not tested.
2. Short circuit is measured with a 10 mΩ (±10%)resisitive load.
3. Time to settle to within 1% of Vout.
4. Transition time > 10 μs
5. Output voltage for dual output models is measured at half load.
6. The maximum specification is the total output current/power. Up to 70%
www.craneae.com
mA
of that total is available from either output provided the other output
maintains a minimum of 15% the total power used.
7. Effect on negative Vout from 50%/50% loads to 70%/30&% or 30%/70%
loads.
8. Tested on release from inhibit.
Page 8 of 21
Rev G - 20060418
Crane Aerospace & Electronics Power Solutions
MOR Single and Dual DC/DC Converters
28 VOLT INPUT – 120 WATT
Electrical Characteristics: 25°C Tc, 28 VDC Vin, 100% load, free run, unless otherwise specified.
DUAL OUTPUT MODELS
PARAMETER
OUTPUT VOLTAGE5
MOR286R3D
MOR289R5D
MOR2812D
MOR2815D
CONDITIONS
MIN
TYP MAX
MIN
TYP MAX
MIN
+VOUT
6.24
6.30 6.36
9.41
9.50 9.58
11.88 12.00 12.12
TYP MAX
14.85 15.00 15.15
MIN
TYP MAX
–VOUT
6.22
6.30 6.38
9.36
9.50 9.63
11.82 12.00 12.18
14.77 15.00 15.23
±5.53 11.05
OUTPUT CURRENT6
VIN = 16 to 40 VDC
—
±8
16
—
OUTPUT POWER
VIN = 16 to 40 VDC
—
—
100
—
—
105
—
—
110
—
—
120
OUTPUT RIPPLE
—
±4.58 9.16
—
±4.00 8.00
UNITS
VDC
A6
W
10 kHz - 20 MHz
VOLTAGE
Tc = –55°C to +125°C
—
50
100
—
75
120
—
75
120
—
75
150
+VOUT / –VOUT
10 kHz - 2 MHz
Tc = –55°C to +125°C
120
mV p-p
—
30
60
—
50
80
—
50
100
—
50
LINE REGULATION
+VOUT
—
25
50
—
25
50
—
25
50
—
25
50
VIN = 16 to 40 VDC
–VOUT
—
50
160
—
50
100
—
50
100
—
50
100
+VOUT
—
25
50
—
25
50
—
25
50
—
25
50
–VOUT
—
50
200
—
50
200
—
50
200
—
50
200
NEGATIVE VOUT
—
5
8
—
4
7
—
3
5
—
2
4
%
INPUT VOLTAGE
CONTINUOUS
16
28
40
16
28
40
16
28
40
16
28
40
VDC
INPUT CURRENT
TRANSIENT 120 msec1
NO LOAD
—
—
—
70
50
140
—
—
—
70
50
140
—
—
—
70
50
140
—
—
—
70
50
140
V
mA
INHIBITED - INH1
INHIBITED - INH2
10 kHz - 20 MHz
Tc = –55°C to +125°C
—
—
—
—
10
70
—
—
—
—
10
60
—
—
—
—
10
70
—
—
—
—
10
70
mA
LOAD REGULATION
CROSS REGULATION7
INPUT RIPPLE
CURRENT
STEP LOAD RESP.
± VOUT
STEP LINE RESP.
± VOUT
START-UP8
INHIBIT PIN CURRENT1
CAPACITIVE LOAD1
—
—
130
—
—
130
—
—
130
—
—
130
mA p-p
83
—
82
84
—
84
86
—
85
87
—
%
POWER DISSIPATION
OVERLOAD
SHORT CIRCUIT2
RECOVERY1
50% – 100% — 50%
—
—
—
30
—
—
—
24
10
—
—
—
30
—
—
—
24
10
—
—
—
30
—
—
—
24
10
—
—
—
30
—
—
—
20
10
ms
W
TRANSIENT
—
—
500
—
—
500
—
—
600
—
—
600
mV pk
RECOVERY3
16 – 40 – 16 VDC
TRANSIENT1, 4
—
—
300
—
—
300
—
—
300
—
—
300
μs
—
—
500
—
—
600
—
—
600
—
—
750
mV pk
RECOVERY1, 3
DELAY
OVERSHOOT1
—
—
—
—
—
—
300
10
50
—
—
—
—
—
—
300
10
50
—
—
—
—
—
—
300
10
50
—
—
—
—
—
—
300
10
50
μs
ms
mV pk
UNIT INHIBITED
—
0.1
1.0
—
0.1
1.0
—
0.1
1.0
—
0.1
1.0
mA
—
—
1000
—
—
1000
—
—
1000
—
—
1000
μF
NO EFFECT ON DC
PERFORMANCE
Notes:
1. Guaranteed by design, not tested.
2. Short circuit is measured with a 10 mΩ (±10%)resisitive load.
3. Time to settle to within 1% of Vout.
4. Transition time > 10 μs
5. Output voltage for dual output models is measured at half load.
6. The maximum specification is the total output current/power. Up to 70%
www.craneae.com
mV
81
EFFICIENCY
LOAD FAULT
mV
of that total is available from either output provided the other output
maintains a minimum of 15% the total power used.
7. Effect on negative Vout from 50%/50% loads to 70%/30% or 30%/70%
loads.
8. Tested on release from inhibit.
Page 9 of 21
Rev G - 20060418
Crane Aerospace & Electronics Power Solutions
MOR Single and Dual DC/DC Converters
28 VOLT INPUT – 120 WATT
Typical Performance Curves: 25°C Tc, 28 VDC Vin, 100% load, 20 MHz BW, free run, unless otherwise specified.
90
90
90
16V
40V
28V
70
60
50
6.6
40V
28V
70
60
50
10
66
33
16V
80
40V
28V
70
60
50
10
100
50
Output Power (Watts)
Output Power (Watts)
MOR283R3S Efficiency
MOR2805S Efficiency
MOR286R3S Efficiency
90
16V
90
16V
40V
70
60
80
40V
28V
70
60
50
11
105
Output Power (Watts)
Efficiency (%)
Efficiency (%)
28V
52.5
MOR289R5S Efficiency
55
110
80
28V
70
60
50
12
Output Power (Watts)
MOR2812S Efficiency
MOR2815S Efficiency
FIGURE 19
FIGURE 18
90
90
90
28V
70
60
33
66
80
Efficiency (%)
Efficiency (%)
40V
50
6.6
16V
16V
16V
120
60
Output Power (Watts)
FIGURE 17
80
16V
40V
80
50
10.5
FIGURE 16
FIGURE 15
90
Efficiency (%)
100
50
80
Output Power (Watts)
FIGURE 14
Efficiency (%)
Efficiency (%)
80
Efficiency (%)
Efficiency (%)
16V
40V
28V
70
60
50
10
50
100
80
40V
28V
70
60
50
10
50
100
Output Power (Watts)
Output Power (Watts)
Output Power (Watts)
MOR283R3D Efficiency
MOR2805D Efficiency
MOR286R3D Efficiency
FIGURE 20
www.craneae.com
FIGURE 21
Page 10 of 21
Rev G - 20060418
FIGURE 22
Crane Aerospace & Electronics Power Solutions
MOR Single and Dual DC/DC Converters
28 VOLT INPUT – 120 WATT
Typical Performance Curves: 25°C Tc, 28 VDC Vin, 100% load, 20 MHz BW, free run, unless otherwise specified.
90
16V
70
60
Output Power (Watts)
70
60
MOR289R5D Efficiency
70
60
20
20
40
60
80
10
MOR2812D Efficiency
MOR2815D Efficiency
FIGURE 25
0
60
80
10
1
Frequency (kHz)
MOR2805S Audio Rejection
MOR2815S Audio Rejection
FIGURE 26
FIGURE 27
100
20 Negative Output
40
60
Positive Output
80
100
0.1
0V
1
10
100
Frequency (kHz)
MOR2815D Audio Rejection
FIGURE 28
20 mA/div
20 mV/div
Frequency (kHz)
200 V/div
120
Output Power (Watts)
40
100
0.1
100
60
Output Power (Watts)
Attenuation (dB)
0
Attenuation (dB)
0
1 μs/div
25 μs/div
1 μs/div
500 ns/div
Representative of all models
80% Load
MOR2812D Sync Out
FIGURE 29
MOR2805S Output Ripple (Vout)
FIGURE 30
www.craneae.com
28V
50
12
110
55
40V
80
FIGURE 24
FIGURE 23
1
28V
50
11
105
52.5
80
Efficiency (%)
Efficiency (%)
Efficiency (%)
28V
100
0.1
16V
40V
40V
80
50
10.5
Attenuation (dB)
90
90
16V
Page 11 of 21
Rev G - 20060418
MOR2805S Input Ripple Current (Iin)
FIGURE 31
Crane Aerospace & Electronics Power Solutions
MOR Single and Dual DC/DC Converters
28 VOLT INPUT – 120 WATT
2 V/div
Vout
10 V/div
Vout
2.5 ms/div
1 ms/div
18 to 40 V, 40 to 18 V
All combinations of line and load
MOR2805S Step Line Response
FIGURE 33
MOR2805S Turn On Response
FIGURE 34
20 mA/div
20 mV/div
2 A/div
Iin
Vout
Vin
Vin
100 μs/div
MOR2805S Step Load Response
FIGURE 32
Vout
2 V/div
50 - 100%
Step Load
Vin
Vout 50 mV/div
100 mV/div
100 -50%
Step Load
Vin 10 V/div
Typical Performance Curves: 25°C Tc, 28 VDC Vin, 100% load, 20 MHz BW, free run, unless otherwise specified.
1 μs/div
5 ms/div
With and without 470 μF cap. load
10 μs/div
MOR2805S Inhibit Release Inrush Current MOR2815S Output Ripple (Vout)
FIGURE 35
FIGURE 36
MOR2815S Input Ripple (Iin)
FIGURE 37
100 μs/div
MOR2815S Step Load Response
FIGURE 38
www.craneae.com
Vout
20 V/div
5 V/div
Vout 50 mV/div
50 - 100%
Step Load
Vout
Vin 10 V/div
200 mV/div
Vin
100 -50%
Step Load
Vin
Vout
Vin
50 μs/div
18 to 40 V, 40 to 18 V, 50% load
2.5 ms/div
All combinations of line and load
MOR2815S Step Line Response
FIGURE 39
MOR2815S Turn On Response
Page 12 of 21
Rev G - 20060418
FIGURE 40
Crane Aerospace & Electronics Power Solutions
MOR Single and Dual DC/DC Converters
28 VOLT INPUT – 120 WATT
Typical Performance Curves: 25°C Tc, 28 VDC Vin, 100% load, 20 MHz BW, free run, unless otherwise specified.
25 μs/div
100 - 50%
Step Load
+Vout
–Vout
50% Load
–Vout
50 μs/div
MOR2805D Output Ripple (±Vout)
FIGURE 41
MOR2805D Input Ripple (Iin)
FIGURE 42
–Vout
50 - 100%
Load
+Vout
50% Load
–Vout
Vout 100 mV/div
50 mV/div
+Vout
Vin
MOR2805D Step Load Response
FIGURE 43
Vin 20 V/div
80% load each output
Vin 20 V/div
1 μs/div
80% load each output
Vin
+Vout
–Vout
Vout 100 mV/div
20 mV/div
20 mA/div
1 μs/div
50 mV/div
+Vout
25 μs/div
25 μs/div
18 to 40 V, 80% load each output
40 to 18 V, 80% load each output
MOR2805D Step Load Response
FIGURE 44
MOR2805D Step Line Response
FIGURE 45
MOR2805D Step Line Response
FIGURE 46
Vin
–Vout
20 mA/div
20 mV/div
+Vout
+Vout
2 V/div
20 V/div
50 μs/div
25 μs/div
–Vout
2.5 ms/div
80% load each output
1 μs/div
MOR2805D Turn On Response
FIGURE 47
MOR2812D Output Ripple (±Vout)
FIGURE 48
www.craneae.com
1 μs/div
Page 13 of 21
Rev G - 20060418
MOR2812D Input Ripple (Iin)
FIGURE 49
Crane Aerospace & Electronics Power Solutions
MOR Single and Dual DC/DC Converters
28 VOLT INPUT – 120 WATT
50% Load
+Vout
50% Load
100 μs/div
100 μs/div
MOR2812D Step Load Response
FIGURE 50
MOR2812D Step Load Response
FIGURE 51
+Vout
2 A/div
–Vout
5 V/div
Vin
5 V/div
20 V/div
–Vout
50 - 100%
Step Load
2.5 ms/div
MOR2812D Turn On Response
FIGURE 53
www.craneae.com
Iin
Vout
5 ms/div
MOR2812D Inhibit Release Inrush Current
FIGURE 54
Page 14 of 21
Rev G - 20060418
+Vout
Vin
Vin
+Vout
Vout 100 mV/div
100 mV/div
–Vout
100 mV/div
100 - 50%
Step Load
+Vout
Vin 10 V/div
Typical Performance Curves: 25°C Tc, 28 VDC Vin, 100% load, 20 MHz BW, free run, unless otherwise specified.
100 μs/div
18 to 40 V, 40 to 18 V
MOR2812D Step Line Response
FIGURE 52
Crane Aerospace & Electronics Power Solutions
MOR Single and Dual DC/DC Converter Cases
28 VOLT INPUT – 120 WATT
TOP VIEW CASE U
Flanged case, short-leaded
*Does not require designator in Case Option position of model number.
Seam Seal
Angled corner
indicates pin one.
0.23 (5.8) Lead Length
0.128 dia
(3.25).
1.505 (38.23) max.
0.040 dia
(1.02)
1.380 (35.05)
1.250 (31.75)
1
12
1.050 (26.67)
2
11
0.850 (21.59)
3
10
0.650 (16.51)
4
9
0.450 (11.43)
5
8
0.250 (6.35)
6
7
Seal hole: 0.100 ±0.002 (2.54 ±0.05)
0.220 (5.59
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 Kovar/Nickel
Pins
#52 alloy/Gold; compression glass seal
Case U, Rev C, 20060302
Please refer to the numerical dimensions for accuracy. All information is believed to be accurate,
but no responsibility is assumed for errors or omissions. Interpoint reserves the right to make
changes in products or specifications without notice.
Copyright © 1999-2006 Interpoint Corp. All rights reserved.
FIGURE 55: CASE U
www.craneae.com
Page 15 of 21
Rev G - 20060418
0.050 (1.27)
0.000
0.400 (10.16) max.
2.880 (73.15)
3.005 (76.33) max.
2.750 (69.85)
0.000
0.120 (3.05)
0.250 (6.35)
0.120 (3.05)
0.000
Crane Aerospace & Electronics Power Solutions
MOR Single and Dual DC/DC Converter Cases
28 VOLT INPUT – 120 WATT
TOP VIEW CASE V*
Flanged case, down leaded
*Designator "V" required in Case Option position of model number.
Maximum dimensions: 3.005 x 1.505 (76.33 x 38.23 mm)
Angled corner
indicates pin one.
3.45 (87.6) Reference
(lead center to lead center)
0.128 dia (3.25)
0.040 dia
(1.02)
1.380 (35.05)
1.250 (31.75)
12
1
1.050 (26.67)
11
2
0.850 (21.59)
10
3
0.650 (16.51)
9
4
0.450 (11.43)
8
5
0.250 (6.35)
7
6
0.120 (3.05)
Case dimensions in inches (mm)
Tolerance ±0.005 (0.13) for three decimal places
±0.01 (0.2) 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 Kovar/Nickel
Pins
#52 alloy/Gold compression glass seal
Case V, Rev C, 20060106
Please refer to the numerical dimensions for accuracy. All information is believed to be accurate,
but no responsibility is assumed for errors or omissions. Interpoint reserves the right to make
changes in products or specifications without notice.
Copyright © 1999-2006 Interpoint Corp. All rights reserved.
FIGURE 56: CASE V
www.craneae.com
Page 16 of 21
Rev G - 20060418
0.250 (6.35)
ref: ±.050 (1.27)
0.050 (1.27)
0.000
0.220 (5.59)
0.400 (10.16) max
Seal hole: 0.120 ±0.002 (3.05 ±0.05)
2.880 (73.15)
3.005 (76.33) max
2.750 (69.85)
0.250 (6.35)
0.000
0.120 (3.05)
ref: 0.225 (5.72
0.000
Crane Aerospace & Electronics Power Solutions
MOR Single and Dual DC/DC Converter Cases
28 VOLT INPUT – 120 WATT
TOP VIEW CASE W*
Tabbed case, up-leaded
*Designator "W" required in Case Option position of model number.
0.140 dia
(3.56)
0.250 (6.35) Typ.
0.250 (6.35)
Typ.
1.750 (44.45)
1.625
(41.28)
2.000
(50.80)
1.375
(34.93)
1.175
(29.85
0.975
(24.77)
0.775
(19.69)
0.575
(14.61)
0.375
(9.53)
1
12
2
11
3
10
4
9
5
8
6
7
0.040 dia
(1.02)
0.050 (1.27)
0.000
0.220 (5.59)
0.400 (10.16) max.
0.84 ±0.05
(21.3 ±1.3)
0.375 (9.53)
0.000
0.300 (7.62)
1.450 (36.83)
1.750 (44.45)
2.125 (53.98)
0.125
(3.18)
0.000
Seal hole: 0.120 ±0.002 (3.05 ±0.05)
Case dimensions in inches (mm)
Tolerance ±0.005 (0.13) for three decimal places
±0.01 (0.2) for two decimal places
unless otherwise specified
Lead Detail
0.84 ±0.05
(21.3 ±1.3)
0.400 (10.16) max.
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.
0.220 (5.59)
0.000
0.150 (3.81)
2.80 (71.1) Reference
(lead center to lead center)
Materials
Header Cold Rolled Steel/Nickel/Gold
Cover Kovar/Nickel
Pins
#52 alloy/Gold compression glass seal
Case W, Rev C, 20060106
Please refer to the numerical dimensions for accuracy. All information is believed to be accurate,
but no responsibility is assumed for errors or omissions. Interpoint reserves the right to make
changes in products or specifications without notice.
Copyright © 1999-2006 Interpoint Corp. All rights reserved.
FIGURE 57: CASE W
www.craneae.com
Page 17 of 21
Rev G - 20060418
Crane Aerospace & Electronics Power Solutions
MOR Single and Dual DC/DC Converter Cases
28 VOLT INPUT – 120 WATT
TOP VIEW CASE Y*
Tabbed case, straight-leaded
*Designator “Y” required in Case Option position of model number.
0.250 (6.35)
Typ.
1.750 (44.45)
1.625
(41.28)
2.000
(50.80)
Bathtub
Seam Seal
0.140 dia
(3.56)
0.250 (6.35) Typ.
1.375
(34.93)
1.175
(29.85
0.975
(24.77)
0.775
(19.69)
0.575
(14.61)
0.375
(9.53)
1
12
2
11
3
10
4
9
5
8
6
7
0.040 dia
(1.02)
0.050 (1.27)
0.000
0.220 (5.59)
0.400 (10.16) max.
0.375 (9.53)
0.000
0.300 (7.62)
1.450 (36.83)
1.750 (44.45)
2.125 (53.98)
Pin Length
0.30 ±0.05
(7.6 ±1.3)
0.125
(3.18)
0.000
Seal hole: 0.120 ±0.002 (3.05 ±0.05)
Lead Detail
Case dimensions in inches (mm)
Tolerance ±0.005 (0.13) for three decimal places
±0.01 (0.2) for two decimal places
unless otherwise specified
0.400 (10.16) max.
0.220 (5.59)
0.000
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 Kovar/Nickel
Pins
#52 alloy/Gold compression glass seal
Case Y, Rev C, 20060106
Please refer to the numerical dimensions for accuracy. All information is believed to be accurate,
but no responsibility is assumed for errors or omissions. Interpoint reserves the right to make
changes in products or specifications without notice.
Copyright © 1999-2006 Interpoint Corp. All rights reserved.
FIGURE 58: CASE Y
www.craneae.com
Page 18 of 21
Rev G - 20060418
0.30 ±0.05
(7.6 ±1.3)
3.10 (78.7) Reference
Crane Aerospace & Electronics Power Solutions
MOR Single and Dual DC/DC Converter Cases
28 VOLT INPUT – 120 WATT
TOP VIEW CASE Z*
Tabbed case, down-leaded
*Designator “Z” required in Case Option position of model number.
0.140 dia
(3.56)
0.250 (6.35) Typ.
0.250 (6.35)
Typ.
1.750 (44.45)
1.625
(41.28)
2.000
(50.80)
1.375
(34.93)
1.175
(29.85
0.975
(24.77)
0.775
(19.69)
0.575
(14.61)
0.375
(9.53)
1
12
2
11
3
10
4
9
5
8
6
7
0.040 dia
(1.02)
0.36 ±0.05
(9.1±0.13)
0.050 (1.27)
0.000
0.220 (5.59)
0.400 (10.16) max.
0.375 (9.53)
0.000
0.300 (7.62)
1.450 (36.83)
1.750 (44.45)
2.125 (53.98)
0.125
(3.18)
0.000
Lead Detail
Seal hole: 0.120 ±0.002 (3.05 ±0.05)
0.150 (3.81)
0.400 (10.16) max.
Case dimensions in inches (mm)
Tolerance ±0.005 (0.13) for three decimal places
±0.01 (0.2) 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.
0.220 (5.59)
0.000
0.36 ±0.05
(9.1±0.13)
2.80 (71.1) Reference
(lead center to lead center)
Materials
Header Cold Rolled Steel/Nickel/Gold
Cover Kovar/Nickel
Pins
#52 alloy/Gold compression glass seal
Case Z, Rev C, 20060106
Please refer to the numerical dimensions for accuracy. All information is believed to be accurate,
but no responsibility is assumed for errors or omissions. Interpoint reserves the right to make
changes in products or specifications without notice.
Copyright © 1999-2006 Interpoint Corp. All rights reserved.
FIGURE 59: CASE Z
www.craneae.com
Page 19 of 21
Rev G - 20060418
Crane Aerospace & Electronics Power Solutions
MOR Single and Dual DC/DC Converters
28 VOLT INPUT – 120 WATT
883, CLASS H, QML PRODUCTS – ELEMENT EVALUATION
ELEMENT EVALUATION
STANDARD
(NON-QML)1
M/S2
P3
TEST PERFORMED
(COMPONENT LEVEL)
CLASS H,
QML
2
M/S
P3
Element Electrical (probe)
yes
no
yes
yes
Element Visual
no
no
yes
yes
Internal Visual
no
no
yes
no
Final Electrical
no
no
yes
yes
Wire Bond Evaluation4
no
no
yes
yes
SLAM™/C-SAM:
Input Capacitors only
(Add’l test, not req. by H or K)
no
no
no
yes
Definitions:
Element Evaluation: Component testing/screening per MIL-STD-883 as determined by MIL-PRF-38534
SLAM™: Scanning Laser Acoustic Microscopy
C-SAM: C - Mode Scanning Acoustic Microscopy
Notes:
1. Non-QML products do no meet all of the requirements of MIL-PRF-38534
2. M/S = Active components (Microcircuit and Semiconductor Die)
3. P = Passive components
4. Not applicable to EMI filters that have no wire bonds
www.craneae.com
Page 20 of 21
Rev G - 20060418
Crane Aerospace & Electronics Power Solutions
MOR Single and Dual DC/DC Converters
28 VOLT INPUT – 120 WATT
883, CLASS H, QML PRODUCTS – ENVIRONMENTAL SCREENING
TEST
125°C
STANDARD
non-QML1
125°C
/ES
non-QML1
Class H
/883
QML
Pre-cap Inspection
Method 2017, 2032
yes
yes
yes
Temperature Cycle (10 times)
Method 1010, Cond. C, -65°C to 150°C, ambient
Method 1010, Cond. B, -55°C to 125°C, ambient
no
no
no
yes
yes
no
Constant Acceleration
Method 2001, 3000 g
Method 2001, 500g
no
no
no
yes
yes
no
Burn-In
Method 1015, 160 hours at 125°C case, typical
96 hours at 125°C case, typical
no
no
no
yes
yes
no
Final Electrical Test MIL-PRF-38534, Group A
Subgroups 1 through 6: -55°C, +25°C, +125°C case
Subgroups 1 and 4: +25°C case
no
yes
no
yes
yes
no
Hermeticity Test
Fine Leak, Method 1014, Cond. A
Gross Leak, Method 1014, Cond. C
Gross Leak, Dip (1 x 10-3)
no
no
yes
yes
yes
no
yes
yes
no
Final Visual Inspection
Method 2009
yes
yes
yes
Test methods are referenced to MIL-STD-883 as determined by MIL-PRF-38534.
Notes:
1. Non-QML products do not meet all of the requirements of MIL-PRF-38534
MOR Single and Dual Rev G - 20060418. This revision supercedes all previous releases. All technical information is believed to be accurate, but no responsibility is
assumed for errors or omissions. Interpoint reserves the right to make changes in products or specifications without notice. MOR Series is a trademark of Interpoint.
Copyright © 1999 - 2006 Interpoint Corporation. All rights reserved. www.craneae.com
Page 21 of 21